A high-resolution version for printing - CP3-Origins

Black book 

 

Uncovering the origins of bright 

and dark mass in the universe. 

Centre of excellence for Particle Physics Phenomenology 

Danish National Research Foundation

First Black Book 

April 2010

Table of Contents 

The Revolutions to Come! 1 

The Need to Go Beyond! 2 

Organization! 4 

Faculty! 4 

Advisory Board! 5 

Research Staff! 5 

Students! 5 

Administrative Staff! 5 

Associate centre members/supporting scientists! 6 

Short and long term visitors.! 6 

Overview of the Centre! 8 

Roadmap! 11 

Dynamical Electroweak Symmetry Breaking! 11 

Flavour Physics! 14 

Matter-Antimatter Asymmetry! 14 

Strong Interactions! 16 

Beyond Particle Physics! 17 

Milestones! 19 

Scientific! 19 

Recruitment and Meetings! 19 

Community! 20 

Science Revealed Behind Angels and Demons! 20 

CP³-Genius Program! 20 

CP³ in the Press! 22 

CP³-Black book

CP3-Origins Poster Collection! 23 

Personnel Overview 01.09-31.12.2009! 29 

Postdoctoral Positions 2009 - Statistics! 30 

Appendix! 31 

Appendix A: External Relations! 31 

Appendix B: Conferences! 33 

Appendix C: Educational activities! 35 

Appendix D: Academic services! 36 

Appendix E: External funding! 37 

Appendix G: Public outreach! 38 

Appendix I: Publications! 39 

March 2010 Photo Gallery! 42 

CP³-Black book

The Revolutions to Come 

Mankind’s greatest achievements have come from the curiosity to know how the world works. 

Everything we see and even things we do not see are combinations of a handful of elementary 

particles. We live in a particle universe. Imminent explorations of the innermost structure of 

nature will soon lead to unprecedented heights in scientific discovery, invention and technological 

advancement. The Large Hadron Collider (LHC) 

at CERN is the most ambitious scientific experiment in 

the world and will set the agenda for particle physics 

for, at least, the next decade. It will accelerate two beams 

of protons in opposite directions around a 27km underground 

tunnel, until they reach almost the speed of 

light. The particles will then be collided creating energies 

higher than ever before. 

We aim to exploit experimental results, supercomputers 

and our theoretical expertise to make the next big leap in 

particle physics: 

Uncovering the Origin of Mass of all elementary particles. 

We will also contribute in other equally relevant quests: understanding the phase diagram of 

strongly interacting theories and the origin of bright and dark matter in the universe. 

Our current understanding of nature fails to explain the origin of dark matter or why matter 

dominates over antimatter, i.e. why there is something rather than nothing in the universe. The 

origin of mass problem is intimately connected to these fundamental questions, making it a central 

problem in physics. 

To achieve our overarching goals we will : 

Dark Energy 

74% 

Atoms 

4% 

Dark Matter 

22% 

Unite the most relevant strategic areas of research in particle physics phenomenology from 

model building to flavour physics and strong interactions. 

Gather experts with complementary abilities and provide a competitive and vibrant scientific 

environment. 

Use the modern theoretical means for describing and understanding experimental results as 

well as making sensible phenomenological predictions. 

Construct original and scientifically sound extensions of the Standard Model and test them 

against experimental results. 

Develop novel tools of direct relevance to the LHC physics and more generally to understand 

complex dynamics. 

Use our relations with leading international centres of excellence and universities possessing 

complementary skills and scientific knowledge. 

CP³-Black book 1

Sustainability is the key for success, and this is why we will provide several permanent positions 

in particle physics. This demonstrates strong commitment to the field in Denmark. Several 

young researchers and graduate students will have the opportunity of receiving a highly 

qualified training while being themselves fundamental 

component of the centre's scientific life. 

The convergence of its near to perfect timing, outstanding 

team, and unprecedented support at the University of 

Southern Denmark (SDU) means that CP³-Origins is 

acutely primed to raise Danish research to the very top of 

the international field of particle physics. 

The Need to Go Beyond 

The energy scale at which the LHC experiment will operate is 

determined by the need to complete the standard model (SM) of particle interactions and, in 

particular, to understand the origin of mass of the elementary particles. Together with classical 

general relativity the SM constitutes one of the most successful models of nature. We shall, 

however, argue that experimental results and theoretical arguments call for a more fundamental 

description of nature. The SM can be viewed as a low-energy effective theory valid up to an energy 

scale Λ. Above this scale new interactions, symmetries, extra dimensional worlds or any 

other extension could emerge. At sufficiently low energies with respect to this scale one expresses 

the existence of new physics via effective operators. The success of the SM is due to the 

fact that most of the corrections to its physical observables depend only logarithmically on this 

scale. In fact, in the SM there exists only one operator which acquires corrections quadratic in Λ. 

This is the squared mass operator of the Higgs boson. Since Λ is expected to be the highest possible 

scale, which in four dimensions corresponds to the Planck scale, it is hard to explain naturally 

why the mass of the Higgs is of the order of the electroweak scale. This is the hierarchy 

problem. Due to the occurrence of quadratic corrections in the cutoff scale Λ this SM sector is 

most sensitive to the existence of new physics. Many questions need an answer even if the 

Higgs is found at the LHC: Is it composite? How many Higgs fields are there in nature? Are 

there hidden sectors? 

Nature’s Riddles 

Why do we expect that there is new physics awaiting to be discovered? Of course, we still have 

to observe the Higgs boson. However, even with the Higgs discovered, the SM has both conceptual 

problems and phenomenological shortcomings. In fact, theoretical arguments indicate that 

the SM is not the ultimate description of nature: 

Hierarchy Problem: The Higgs sector is highly fine-tuned. We have no natural separation between 

the Planck and the electroweak scale. 

Strong CP Problem: There is no natural explanation for the smallness of the electric dipole moment 

of the neutron within the SM. This problem is also known as the strong CP problem. 

Origin of Patterns: The SM can fit, but cannot explain the number of matter generations and their 

mass texture. 

CP³-Black book 2

Unification of the Forces: Why do we have so many different interactions? It is appealing to 

imagine that the SM forces could unify into a single Grand Unified Theory (GUT). We could 

imagine that at very high energy scales gravity also becomes part of a unified description of 

nature. 

There is no doubt that the SM is incomplete since we cannot even account for a number of basic 

observations: 

Neutrino Physics: Only recently it has been possible to have some definite answers about properties 

of neutrinos. We now know that they have a tiny mass, which can be naturally accommodated 

in extensions of the SM, featuring for example a “see-saw” mechanism. We do not yet 

know if the neutrinos have a Dirac or a Majorana nature. 

Origin of Bright and Dark Mass: Leptons, quarks and the gauge bosons mediating the weak interactions 

possess a rest mass. Within the SM this mass can be accounted for by the Higgs mechanism, 

which constitutes the electroweak symmetry breaking sector of the SM. However, the associated 

Higgs particle has not yet been discovered. Besides, the SM cannot account for the observed 

large fraction of “dark” mass of the universe. What is interesting is that in the universe 

the dark matter is about five times more abundant than the known baryonic matter, i.e. “bright” 

matter. We do not know why the ratio of dark to bright matter is of order unity. 

Matter-Antimatter Asymmetry: From our everyday experience we know that there is very little 

“bright” antimatter in the universe. The SM fails to predict the observed excess of matter. 

These arguments imply that the SM must be extended or amended to answer the questions 

raised above. Several extensions have appeared in the literature but two stand out in the quest 

for a more fundamental theory at the Fermi scale: Technicolor and Supersymmetry. We aim at 

using and developing analytic and numerical (lattice) approaches to study the nonperturbative 

properties of these theories. Using the knowledge of the gauge dynamics acquired we will also 

make predictions for collider physics and cosmology. 

CP³-Black book 3

Organization 

The Centre for Particle Physics Phenomenology – CP³-Origins has been established by the Danish 

National Research Foundation (DNRF) and opened on the 1st of September 2009 at the University 

of Southern Denmark in Odense. CP³-Origins is initially funded by the DNRF for a duration 

of five years and will then be evaluated for a possible extension of five more years. 

The centre is also supported from other sources, including the Danish Agency for Science, Technology 

and Innovation, the Villum Kann Rasmussen Foundation, the European Commission, 

Nordforsk, and the Danish Centre for Super Computing. 

We will employ a chess-like strategy where every individual 

piece (postdocs, student and staff-member) 

plays a fundamental role while functioning together 

towards the successful common goal. The key to becoming 

a better player in chess is to never get stuck 

on one level of play. We continually add to our game 

by learning and trying new strategies. 

The centre is located at the University of Southern 

Denmark (SDU), and has long-term visitors affiliated 

with other institutions worldwide. The following are the members. 

Faculty 

Stanley J. Brodsky Professor (19.3 - 30.6.2010) 

Dennis D. Dietrich 

Rolf Fagerberg 

Assistant Professor 

Associate Professor 

Paul Hoyer Professor (1.1 - 31.5.2010) 

Arne Lykke Larsen 


Isabella Masina 

Niels Kjær Nielsen 

Adjunct Professor 

Docent 

Claudio Pica Assistant Professor (Since 15.2.2010 ) 

Francesco Sannino 

Professor, Director 

Joseph Schechter Professor (15.8 - 31.12.2009) 

Martin Svensson 

Andrew Swann 

Kimmo Tuominen 

Roman Zwicky 



Assistant Professor 

Adjunct Professor 

CP³-Black book 4

Advisory Board 

To insure the maximum Nordic and international impact we have formed an international advisory 

board constituted by: 

Stanley J. Brodsky 

Paolo Di Vecchia 

Paul Hoyer 

Michelangelo L. Mangano 

Finn Ravndal 

Torbjörn Sjöstrand 

Professor (SLAC, Stanford) 

Professor (NORDITA) 

Professor, chair (Helsinki) 

Professor (CERN) 

Professor (Oslo) 

Professor (Lund) 

The role of the board is to advertise the activities of the centre, promote its initiatives, advise on 

and facilitate the recruitment of the best possible scientists at CP³-Origins. Professor Hoyer will 

help the director in coordinating the board’s activities. 

Research Staff 

Jacopo Bechi Post Doc (1.9.2009 - 1.12.2009) 

Stefano Di Chiara Post Doc (1.9.2009 - 31.8.2011) 

Hidenori Fukano Sakuma Post Doc (1.9.2009 - 27.2.2010) 

Matti Järvinen Post Doc (1.9.2009 - 31.8.2010) 

Students 

Matti Antola 

PhD (Helsinki) 

Phongpichit Channuie 

Master 

Eugenio Del Nobile PhD (1.2.2010 - 31.1.2013) 

Karin Dissauer Bachelor (1.2.2010) 

Helene Gertov Bachelor (1.3.2010) 

Tuomas Hapola PhD (1.2.2010 - 31.1.2013) 

Matti Heikinheimo 

PhD (Jyväskylä) 

Jakob Jark Jørgensen 

Master 

Kasper Langæble Bachelor (1.3.2010) 

Thomas Bruun Madsen PhD 

Matin Mojaza 

Master 

Ulrik Ishøj Søndergaard Master 

Asger Tobiesen Bachelor (1.3.2010) 

Martin Zangenberg Bachelor (1.2.2010) 

Administrative Staff 

Jens Svalgaard Kohrt 

Lone Charlotte Nielsen 

Academic Staff, IT 

Centre Secretary 

CP³-Black book 5

Associate centre members/supporting scientists 

Luis Alvarez-Gaumè as Director of the CERN-Theory Division 

Georges Azuelos (Montreal Univ., CA) 

Ikaros Bigi (Notre Dame Univ., US) 

Cliff Burgess on behalf of the Perimeter Institute, Canada 

Roberto Casalbuoni (GGI, Firenze, IT) 

Simon Catterall (Syracuse Univ., US) 

Sekhar Chivukula (MSU, East Lansing, US) 

Luigi Del Debbio (Edinburgh Univ., UK) 

Kari Eskola (Jyväskylä Univ., FI) 

Sten Hellman (Stockholms Univ., SE) 

Elias Kiritsis (Crete Center for Theoretical Physics, GR) 

Frank Krauss (IPPP, Durham, UK) 

Fabio Maltoni (CP³, Louvain, BE) 

Antonio Masiero (Padova University, IT) 

Stefano Moretti (NEXT, Southampton, UK) 

Elizabeth Simmons (MSU, East Lansing, US) 

Mike Teper (Oxford Univ., UK) 

Ulf Wahlgren on behalf of NORDITA-Stockholm 

Short and long term visitors. 

The centre is quickly becoming a reference point for the Nordic particle physics phenomenology 

community thanks to an ultra-active visitor program. We had a very large number of well 

known scientists presenting their research topics and the latest scientific results within the CP³- 

Lecture program or at the weekly CP³ journal clubs. Graduate students from Nordic and nonnordic 

countries come to the centre for either working directly with the staff members or to acquire 

relevant information useful for their thesis work. 

The video-recorded lectures are advertised broadly in the Nordic countries and streamed on 

our website in order to provide a service to the community. 

Guests September 1, 2009 to March 20, 2010 

• Jie Lu (Lund University) - March 19, 2010 

• Antonio Riotto (CERN & Padua) - March 15, 2010 

• Zhi-zhong Xing (Chinese Academy of Sciences) - March 7-26, 2010 

• Laura Covi (DESY) - February 22, 2010 

• Felix Berkhahn (LMU) - February 15-19, 2010 

• Geraldine Servant (CERN) - February 15, 2010 

• Matti Antola (University of Jyväskylä) - January 19 to February 15, 2010 

• John Wood (University of Leeds) - January 4-14, 2010 

CP³-Black book 6

• Lisa Carloni (Lund University) - December 18, 2009 

• Paul Hoyer (Helsinki University) - December 14-15 

• Agostino Patella (Swansea) - December 12-15, 2009 

• Stefan Schaefer (Berlin) - December 1, 2009 

• Chris Kouvaris (Université Libre de Bruxelles) - November 24-27, 2009 

• Claudio Pica (University of Edinburgh) - November 24-27, 2009 

• Finn Ravndal (University of Oslo) - November 24-25, 2009 

• George Papadopoulos (Kingʼs College London) - November 26-27, 2009 

• Kari Rummukainen (University of Helsinki) - November 25, 2009 

• Keijo Kajantie (University of Helsinki) - November 24-26, 2009 

• Luigi Del Debbio (University of Edinburgh) - November 24-27, 2009 

• Mads T. Frandsen (Oxford University) - November 24-27, 2009 

• Michelangelo Mangano (CERN) - November 24, 2009 

• Nigel Hitchin (Oxford University) - November 26-27, 2009 

• Paolo Di Vecchia (NORDITA) - November 24, 2009 

• Paul Hoyer (University of Helsinki) - November 24-25, 2009 

• Robert Shrock (Stony Brook University) - November 24-27, 2009 

• Roman Zwicky (University of Southampton) - November 24-27, 2009 

• Stanley Brodsky (SLAC, Stanford) - November 24, 2009 

• Subir Sarkar (Oxford University) - November 24-25, 2009 

• Thomas Ryttov (Stony Brook University) - November 24-27, 2009 

• Torbjörn Sjöstrand (Lund University) - November 24, 2009 

• Francesco Nitti (APC, Paris) - November 12-14, 2009 

• Thomas Pickup (University of Oxford) - November 5-7, 2009 

• Mads Frandsen (University of Oxford) - October 28-30, 2009 

• Berian James (DARK, Copenhagen) - October 26, 2009 

• Lars Bergström (Stockholm University) - October 12, 2009 

• Matti Antola (University of Jyväskylä) - October 12-17, 2009 

• Matti Heikinheimo (University of Jyväskylä) - October 2-7, 2009 

• Tuomas Karavirta (University of Jyväskylä) - October 2-7, 2009 

• Denis Parganlija (Frankfurt University) - September 28 to October 3, 2009 

• Martin S. Sloth (CERN) - September 27-29, 2009 

• Mads Frandsen (University of Oxford) - September 23-25, 2009 

• M. Naeem Shahid (Syracuse University) - September 17 to October 26, 2009 

• Roshan Foadi (Michigan State University) - September 1-28, 200 

CP³-Black book 7

Overview of the Centre 

The birth, on the 1st of September 2009, of the new Centre of Excellence in Particle Physics Phenomenology 

devoted to the understanding of the origin of mass in the universe, CP³-Origins, 

constitutes an historical event for theoretical physics in Denmark. It is well known that, in the 

past, theoretical physics has brought prestige to this country. It is therefore our principal goal to 

use the convergence of the centre’s near to perfect timing, outstanding team, and unprecedented 

support at the University of Southern Denmark (SDU) to raise Danish research to the 

very top of the international field of particle physics. Besides the already very challenging scientific 

goals the centre’s main aspirations are to assume the leading role in the Nordic countries in 

one of the most important areas of research worldwide and to form a new generation of particle 

physicists excelling internationally. We want also to serve nationally by building strategic research 

infrastructure. 

These ambitious tasks required the centre to be ready to hit the ground running from the first 

day of operation. It is for this reason that we hired, roughly three months before the centre was 

due to commence, the Centre’s Administrator Lone Charlotte Nielsen and two months later an 

IT Academic Staff member responsible for managing the centre (super)computing, webpage, 

and other IT-related activities, Jens Svalgaard Kohrt. Ever since they were hired, Lone and Jens 

are doing a superb job, allowing the centre to work seamlessly. 

The centre has filled one tenure-track assistant professor position in Lattice Field Theory for Beyond 

Standard Model physics which, in a very strong pool of applicants, was offered and accepted 

by Claudio Pica. He graduated from the Scuola Normale di Pisa in Italy, has held research 

positions at the Brookhaven National Laboratory in US and then in the high energy 

group at Edinburgh in UK. Despite his young age Pica has been extremely productive with several 

top cited papers and he is a leading expert in lattice field theory for models of Dynamical 

Electroweak Symmetry breaking. His research interests besides Beyond Standard Model physics 

revolve also around QCD in extreme conditions and mechanisms for confinement using advanced 

numerical simulations running on the most advanced computational platforms in the 

world. Pica has joined the centre in February 2010. 

Professor Joe Schechter from Syracuse University has been visiting CP³-Origins from August to 

December 2009. He is one of the world experts in effective Lagrangians for gauge theories of 

fundamental interactions. He is also famous for his fundamental contributions to neutrino 

physics, and most notably for developing a correct theoretical description of double-beta decay. 

He has provided important contributions to the understanding of pion – pion scattering and the 

low energy spectrum of Quantum Chromodynamics, i.e. the theory describing strong interactions. 

He is also very well known for the soliton description of the nucleon. 

Professor Schechter is a fellow of the American Physical Society and 2001 Winner of the Wasserstrom 

prize for outstanding graduate teaching in the college of Arts and Sciences of Syracuse 

University. 

Kimmo Tuominen started in September as Assistant Professor in theoretical physics for a period 

of one year. He is a leading expert in the strongly coupled dynamics within and beyond the 

standard model. He is very young and energetic, has written several important papers in heavy 

ion physics and beyond standard model physics. He will be involved, during his stay at the centre, 

in the construction and development of new models of dynamical electroweak symmetry 

breaking and its consequences for the collider physics and cosmology. 

CP³-Black book 8

Professor Paul Hoyer from Helsinki University is visiting CP³-Origins from January to May 

2010. He is a leader in perturbative aspects of Quantum Chromodynamic and has held research 

positions at CERN, Oxford, Stony Brook and the Lawrence Berkeley Laboratory in US. He has 

been assistant professor at NORDITA (the Nordic centre for advanced theoretical studies) and 

director of NORDITA two times for a total of about 10 years. He has made important contributions 

in high energy physics and in particular in the field of Quantum Chromo Dynamics/ 

hadronic physics. Hoyer has been the chair of the department of High Energy Physics at Helsinki, 

of the research institute for Theoretical Physics of Helsinki, of the Finnish Physical Society. 

He has been also part of the High Energy Physics Prize committee of the European Physical Society. 

Two adjunct professors have joined the centre, Isabella Masina and Roman Zwicky. They are 

experts in neutrino, cosmology and flavor physics, respectively, and more generally in beyond 

standard model physics. 

Stefano Di Chiara joined the centre as his first formal postdoc, he received his PhD from the 

University of Michigan under the supervision of two world leaders in models of Dynamical 

Electroweak Symmetry breaking, Profs Elizabeth Simmons and Sekhar Chivukula. 

We opened two postdoctoral positions and received applications from over 41 countries. 

We hired two PhD students, Tuomas Hapola from Juväskylä in Finland and Eugenio Del Nobile 

from Pisa in Italy. Besides increasing the international dimension of the centre, their interests 

and research skills fit perfectly the centre’s main research activities. 

Three students signed up simultaneously to start their master studies at the centre, Jakob Jark 

Jørgensen, Matin Mojaza and Ulrik Ishøj Søndergaard. All three entered the newly established 

elite education at the University of Southern Denmark. We are very proud that they have chosen 

high energy physics as their primary field of research education, given that they represent la 

creme de la creme of the students at the Faculty of Science. 

Centre members have already produced over 30 research preprints (listed below). Several of the 

recent work of the centre’s members, published before the actual start of the centre, became top 

cited according to the SPIRES high energy database. This is the work dedicated to the understanding 

of the phase diagram of strongly coupled theories and its applications for models of 

dynamical electroweak symmetry breaking and dark matter. 

Within the first four months we launched the CP³-Origins Lecture series as well as the weekly 

journal club. The invited lecturers are internationally known scientists from Europe, the US and 

Asia. 

The CP 3 -Lectures are available on our web page, allowing anyone to later watch and listen to 

the lecturers. With time they will constitute an important historical record. 

The lecturers are well known scientists coming from different places of the globe. The CP³- 

Lectures are available one our webpage insuring transparence, allowing to the possible centre 

members traveling the possibility to watch and listen to the lecturers, and serves as a courtesy 

to the entire scientific community. We have in mind the smaller research groups which want to 

remain updated with respect to the latest developments in particle physics. Finally it will, in 

time, be a precious historical record. 

CP³-Black book 9

The formal inauguration of the centre occurred on the 24th of November and was followed by 

two international meetings, the Origins of Mass Mini Workshop on the 25th of November and 

the Winter School in Geometry and Theoretical physics on the 26th and 27th of November. International 

renowned scientists gave talks and attended the three events. The pictures and several 

of the talks can be watched on our website www.cp3-origins.dk under the Events subpage 

meetings (click on archived events). 

We have launched a large number of extremely successful and novel outreach activities meant 

to propagate the centre’s activities to students and teachers in high schools, to researchers in 

other fields and to the general public. CP³-Origins together with the University of Southern 

Denmark, CERN, Fermilab, the US Department of Energy, National Science Foundation, as well 

as several other worldwide organizations proudly presented the science revealed behind the 

Sony Pictures blockbuster Angels and Demons. 

We launched in February 2010 a 

novel initiative, the CP³-Genius 

Program, meant to allow the 

brightest young minds at the 

bachelor and high school level to 

join the research activities at our centre. The CP³-Genius Program concept is our original idea 

and is now being copied by several other centres in Denmark. 

The research of the centre members has been recognized already on several occasions. The CP³- 

Origins master student Ulrik Ishøj Søndergaard was awarded in December 2009 the Oticon 

Scholarship to work on his master thesis project Phases of Nature. The centre leader’s PhD Student 

Mads T. Frandsen, now postdoc at Oxford, won the 2010 Lundbeck Talent Prize for scientists 

under 30 years old for his thesis work on beyond standard model physics and dark matter. 

In 2009 he was awarded a scholarship from the Anglo-Danish Society and he is also winner of 

the Loerup Honorary Graduate Award. The centre leader was awarded in January 2010 the Elite 

Researcher Prize by the Danish Ministry of Science. The Elite Researcher Prize (EliteForsk-Pris 

in Danish) is given to outstanding researchers and is one of the most prestigious awards in 

Denmark. 

CP³-Black book 10

Roadmap 

The centre is designed to cover, during its life-time, strategic areas of research orbiting around 

the “Origin of Mass” problem which is the “trait d’union” connecting them: 

• Electroweak Symmetry Breaking/Model Building 

• Flavour and CP Physics 

• Strong Interactions 

In the following we review the research we have been involved in during the reporting period. 

We plan to further extend our line or research below for the coming reporting year according to 

the original work-plan and milestones. 

Two staff members per research area will be the primary investigators according to their expertise. 

We expect to involve two postdocs per area of research. There is sufficient flexibility within 

this research structure to allow for the young researchers to pick the topic(s) which best suits 

their interests. Within each research project introduced below we present the methodological 

approach we will employ to achieve our goals. 

Dynamical Electroweak Symmetry Breaking 

A number of possible generalizations of the SM have been conceived. Such extensions are introduced 

on the basis of one or more guiding principles or prejudices. We will introduce below 

only the SM extensions on which we have worked and can achieve in a short period definite 

and seminal results. 

One of the intriguing options for explaining some of the puzzling features of the SM of particle 

physics is to assume that a new force acts at the Fermi scale. This new force, commonly called 

Technicolor – the high energy equivalent of ordinary superconductivity – leads to a natural explanation 

of the origin of the Fermi scale per se as well as of the origin of mass of the intermediate 

vector boson responsible, for example, for the slow burning of our Sun. These theories are 

useful for constructing models able to generate the Fermi scale dynamically while passing the 

LEP precision measurements. Our extensions, termed Minimal Walking Technicolor, are currently 

being studied for potential discovery at the LHC. These theories require new strong dynamics 

very different from the strong nuclear force QCD. 

Natural Fourth Families 

Imagine to discover a new fourth family of leptons at the Large Hadron Collider (LHC) but no 

signs of an associated fourth family of quarks. What would that imply? An intriguing possibility 

is that the new fermions needed to compensate for the new leptons gauge anomalies simultaneously 

address the big hierarchy problem of the Standard Model. A natural way to accomplish 

such a scenario is to have the Higgs itself be composite of these new fermions. 

CP³-Black book 11

This is the setup we investigated using as a template Minimal Walking Technicolor. We analyzed 

a general heavy neutrino mass structure with and without mixing with the Standard 

Model families. We also analyzed the LHC potential to observe the fourth lepton family in tandem 

with the new composite Higgs dynamics. We finally introduced a model uniting the fourth 

lepton family and the technifermion sector at higher energies. 

We also considered the possibility of non-sequential generation(s) of Standard Model -like matter 

as a consequence of cancellation of global and gauge anomalies due to a new strongly interacting 

sector responsible for the electroweak symmetry breaking. 

[Fourth Lepton Family is Natural in Technicolor. Mads T. Frandsen, (Southern Denmark U., 

CP3-Origins & Oxford U., Theor. Phys.) , Isabella Masina, (Ferrara U. & INFN, Ferrara & Southern 

Denmark U., CP3-Origins) , Francesco Sannino, (Southern Denmark U., CP3-Origins) . May 

2009. (Received Feb 1, 2010). 39pp. Published in Phys.Rev.D81:035010,2010. 

The Next Generation. Oleg Antipin, Matti Heikinheimo, Kimmo Tuominen, . CP3-ORIGINS-2010-04, Feb 

2010. 17pp. Submitted for publication. e-Print: arXiv:1002.1872 ] 

Unnatural origin of Fermion Masses 

We explored the scenario in which the breaking of the electroweak symmetry is due to the simultaneous 

presence and interplay of a dynamical sector and an unnatural elementary Higgs. 

We introduced a low energy effective Lagrangian and constrained the various couplings via 

direct search limits and electroweak and flavor precision tests. We found that the model we 

studied is a viable model of dynamical breaking of the electroweak symmetry. 

[Unnatural Origin of Fermion Masses for Technicolor. Matti Antola, (Helsinki Inst. of Phys.) , Matti Heikinheimo, 

(Jyvaskyla U. & Helsinki Inst. of Phys.) , Francesco Sannino, (Southern Denmark U., CP3-Origins) 

, Kimmo Tuominen, (Southern Denmark U., CP3-Origins & Helsinki Inst. of Phys.) . Oct 2009. 20pp. 

e-Print: arXiv:0910.3681 [hep-ph], Accepted for publication in the Journal of High Energy Physics, JHEP] 

Minimal Super Technicolor: A Novel String Theory Connection 

We introduced novel extensions of the Standard Model featuring a supersymmetric technicolor 

sector (supertechnicolor). As the first minimal conformal supertechnicolor model we considered 

N=4 Super Yang-Mills which breaks to N=1 via the electroweak interactions. This is a well defined, 

economical and calculable extension of the SM involving the smallest number of fields. It 

constitutes an explicit example of a natural superconformal extension of the Standard Model 

featuring a well defined connection to string theory. It allows to interpolate, depending on how 

we break the underlying supersymmetry, between unparticle physics and Minimal Walking 

Technicolor. We considered also other N =1 extensions of the Minimal Walking Technicolor 

model. The new models allow all the standard model matter fields to acquire a mass. 

[Minimal Super Technicolor. M. Antola, S. Di Chiara, F. Sannino, K. Tuominen, . CP3-ORIGINS:-2010-01, 

Jan 2010. 23pp. e-Print: arXiv:1001.2040 [hep-ph], Submitted for publication.] 

iTIMP as Dark Matter 

We suggested that a weak isotriplet composite scalar possessing an unbroken U(1) global symmetry 

naturally arises in technicolor models leading to an interesting type of dark matter candidate: 

the iTIMP. We proposed explicit models of the iTIMP, studied earth based constraints 

and suggested possible collider signals. 

CP³-Black book 12

[iTIMP: isotriplet Technicolor Interacting Massive Particle as Dark Matter. 

Mads T. Frandsen, (Oxford U., Theor. Phys.) , Francesco Sannino, (Southern Denmark U., CP3-Origins) . 

CP3-ORIGINS:2009-19, Nov 2009. 4pp. e-Print: arXiv:0911.1570 [hep-ph], Submitted for Publication] 

Superweakly interacting dark matter 

We studied a superweakly interacting dark matter particle motivated by minimal walking technicolor 

theories. Our WIMP is a mixture of a sterile state and a state with the charges of a standard 

model fourth family neutrino. We showed that the model can give the right amount of 

dark matter over a range of the WIMP mass and mixing angle. We computed bounds on the 

model parameters from the current accelerator data including the oblique corrections to the precision 

electroweak parameters, as well as from cryogenic experiments, Super-Kamiokande and 

from the IceCube experiment. We showed that consistent dark matter solutions exist which satisfy 

all current constraints. However, almost the entire parameter range of the model lies within 

the combined reach of the next generation experiments. 

[Superweakly interacting dark matter from the Minimal Walking Technicolor. 

Kimmo Kainulainen, Kimmo Tuominen, Jussi Virkajarvi, . CP3-ORIGINS-2009-26, Dec 2009. 29pp. 

Published in JCAP 1002:029,2010. e-Print: arXiv:0912.2295 [astro-ph.CO]] 

Gravitational Waves 

We investigated the production and possible detection of gravitational waves stemming from 

the electroweak phase transition in the early universe in models of minimal walking technicolor. 

In particular we discussed the two possible scenarios in which one has only one electroweak 

phase transition and the case in which the technicolor dynamics allows for multiple phase 

transitions. 

[Gravitational Techniwaves. Matti Jarvinen, (Southern Denmark U., CP3-Origins) , Chris Kouvaris, (Brussels 

U.) , Francesco Sannino, (Southern Denmark U., CP3-Origins) . CP3-ORIGINS-2009-24, Nov 2009. 

29pp. e-Print: arXiv:0911.4096 [hep-ph], Physical Review D, in press.] 

In the near future we plan to: 

• Construct new benchmarks for models of dynamical electroweak symmetry breaking passing 

precision measurements. 

• Implement the respective low-energy effective theories in computer programmes able to provide 

the relevant physical processes for LHC searches. 

• Investigate the cosmological consequences of dynamical electroweak symmetry breaking 

from dark matter to baryogenesis. 

• Study various extensions featuring dynamical electroweak symmetry breaking and their consequences 

for flavour physics. 

• Compare dynamical electroweak symmetry breaking with physical results from LHC when 

available. 

CP³-Black book 13

This part of the workplan has multiple purposes: it will lead to a deeper understanding of the 

Origin of Mass, both theoretically and phenomenologically; it allows us to get closer to cosmology 

by direct investigation of models of Dark Matter and baryogenesis; it will lead to a better 

understanding of the LHC complex phenomenology and its possible outcomes. In the long run, 

and depending on the LHC outcome, we will also explore how these models may fit in a more 

unified theory of all forces, including gravity. One can envision, for example, the possibility of 

marrying supersymmetry and technicolor at a scale higher than the electroweak. 

Flavour Physics 

The goal of this project is to help uncovering an underlying and more fundamental flavour 

structure of the SM. This will help guiding our intuition for constructing more solid extensions 

of the SM. 

Perturbed S3 neutrinos 

We studied the effects of the perturbation which violates the permutation symmetry of three 

Majorana neutrinos but preserves the well known (23) interchange symmetry. This is done in 

the presence of an arbitrary Majorana phase which serves to insure the degeneracy of the three 

neutrinos at the unperturbed level. 

[Perturbed S(3) neutrinos. Renata Jora, (Barcelona, Autonoma U.) , Joseph Schechter, M. Naeem Shahid, 

(Southern Denmark U., CP3-Origins & Syracuse U.). CP3-ORIGINS-2009-12, SU-4252-898, 

Phys.Rev.D80:093007,2009.] 

Discrete Minimal Flavour Violation 

We investigated the consequences of replacing the global flavour symmetry of Minimal Flavour 

Violation (MFV) SU(3)_QxSU(3)_UxSU(3)_Dx..., by a discrete D_QxD_UxD_Dx.. symmetry. 

Goldstone bosons resulting from the breaking of the flavour symmetry generically lead to 

bounds on new flavour structure many orders of magnitude above the TeV-scale. The absence of 

Goldstone bosons for discrete symmetries constituted the primary motivation of our work. Less 

symmetry implies further invariants and renders the mass flavour basis transformation observable 

in principle and calls for a hierarchy in the Yukawa matrix expansion. We showed, through 

the dimension of the representations, that the (discrete) symmetry in principle does allow for 

additional Delta F = 2 operators. 

[On discrete Minimal Flavour Violation. 

Roman Zwicky, Thomas Fischbacher, (Southampton U.) Published in Phys.Rev.D80:076009,2009.] 

In the future we plan to further investigate the flavour structure stemming out from technicolor 

type extensions of the SM. 

Matter-Antimatter Asymmetry 

The matter-antimatter asymmetry, namely the violation of the discrete CP symmetry, is a phenomenon 

intimately linked to the origin of fermion masses. 

A better characterisation and understanding of CP violation would help in our quest to go beyond 

the SM. CP is violated by weak interactions. The SM does not explain this violation, but 

successfully accounts for it under the form of a phase in the quark mixing matrix. 

CP³-Black book 14

CP violation is also relevant for cosmology: it is one of the three conditions of Sakharov necessary 

for a dynamical explanation of the observed baryon asymmetry of the universe (together 

with baryon number violation and deviation from thermal equilibrium). The amount of CP violation 

provided by the SM is, however, too tiny to explain the baryon asymmetry observed in 

the universe: there must be at least one additional source of CP violation beyond the SM, yet to 

be discovered by laboratory experiments. 

CP violating phenomena beyond the SM that could be detected by ongoing and planned laboratory 

experiments include: deviations from the SM description of the quark mixings, to be 

probed mainly by the LHCb experiment at CERN; neutrino oscillations, because future long 

baseline experiments could detect the CP violating PMNS-phase; fermion Electric Dipole Moments. 

The origin of CP violation is poorly understood and is intimately linked to various open problems 

in particle physics: the violation of flavour, the number of fermion generations, the nature 

of the Higgs field and its role in the spontaneous breaking of the electroweak symmetry. In general, 

theories beyond the SM possess many sources of CP violation. This is for instance the case 

in supersymmetric models. 

We plan to: 

• Study and characterise new sources of CP violation associated to: observable deviations from 

the CKM-description of the quark mixings; non-unitary neutrino oscillations; observable fermion 

EDMs. 

• From the model building point of view, we plan to analyse in particular: models with TeVscale 

neutrinos, like the one we have put forward (See the Natural Fourth Family subsection), 

which can be probed at LHC; models with minimal flavour violation and/or models with 

flavour symmetries. 

• Explore mechanisms to solve the CP and flavour problems of low-energy theories beyond the 

SM. In this respect we will consider various frameworks beyond the SM: extended Higgs sectors 

or alternative electroweak symmetry breaking models, grand unification, supersymmetry, 

extra-dimensions, etc. 

• Investigate mechanisms for the generation of the baryon asymmetry of the universe, and to 

consider related astroparticle issues. For instance, we plan to explore the leptogenesis scenario. 

These investigations will involve many cosmological aspects which we will address: phase transitions, 

inflation, dark matter, dark energy, etc. 

CP³-Black book 15

Strong Interactions 

The main objective of this project is to study the phase diagram of strongly interacting theories, 

using a variety of analytical and numerical methods. Our phase diagram together with the 

summary of the various theories very recently investigated via first lattice simulations is shown 

in Figure 1. Even very novel extensions of the SM, recently proposed by H. Georgi at Harvard, 

termed “unparticle” physics can make use of the knowledge of the phase diagram we are proposing 

to uncover. 

Non-SUSY Phase Diagram 

γ =1 γ =2 

Fund 

Ladder 

Adjoint - SU(2) 

Minimal Walking Technicolor 

Conformal Chiral Symmetry Breaks Non QCD 

3 

SD Sannino Tuominen 

Ryttov Sannino 

2A 

Catterall, Sannino 07 

Catterall, Gidet, Sannino, Schneible 08 

Del Debbio, Patella, Pica 08 

Del Debbio et al.. 09 

Hietanen, Rummukainen, Tuominen 09 

Catterall, Giedt, Sannino Schneible 09 

Bursa, Del Debbio, Keegan, Pica, Pickup 

2 

Υ=1 

Dual 

Sannino 

2S 

Adj 

1 

Υ=2 Ryttov Sannino 

All Orders Beta Function 

Ryttov and F.S. 07 

Figure 1: Left panel: Our prediction for the phase diagram for SU(N) gauge theories with Nf fermions in various representations. The 

shaded areas correspond to scale invariant theories. The different colors indicate different representations of the underlying fermions. 

The dashed line correspond to the lower boundary obtained within the ladder approximation corresponding to the anomalous dimension 

of the fermion mass operator, i.e. gamma around one. The lower solid line for any window corresponds to the new bound found by 

us – corresponding to gamma equal two. Right panel: Blow up of the range of number of flavors for Dirac fermions in the adjoint representation 

corresponding to the Minimal Walking Technicolor (MWT) theory. The theoretical predictions using duality (Sannino 09), ladder 

approximation (Sannino-Tuominen 04) and all-orders beta function (Ryttov-Sannino 07) are reported together with the lattice simulations. 

The red diamond corresponds to simulations indicating that the MWT is conformal while the yellow triangles indicate that the 

theory is not like QCD and might be either conformal or near conformal (walking). 

Gauge Dualities 

We uncovered novel solutions of the 't Hooft anomaly matching conditions for QCD and other 

strongly interacting theories. Interestingly in the perturbative regime the new gauge theories, if 

interpreted as a possible duals, predict the critical number of flavors above which the original 

theory, in the nonperturbative regime, develops an infrared stable fixed point. Remarkably this 

value is identical to the maximum bound predicted in the nonpertubative regime via the allorders 

conjectured beta function for nonsupersymmetric gauge theories. 

[QCD Dual. Francesco Sannino, (Southern Denmark U., CP3-Origins). CP3-ORIGINS-2009-6. Published in 

Phys.Rev.D80:065011,2009. e-Print: arXiv:0907.1364 [hep-th] 

Higher Representations Duals. Francesco Sannino, (Southern Denmark U., CP3-Origins) . CP3-ORIGINS- 

2009-13. Published in Nucl.Phys.B830:179-194,2010. e-Print: arXiv:0909.4584 [hep-th]] 

CP³-Black book 16

Holographic Conformal Window 

We proposed a five-dimensional framework for modeling the background geometry associated 

to (super) Yang-Mills (YM) as well as to nonsupersymmetric gauge theories possessing an infrared 

fixed point with fermions in various representations of the underlying gauge group. We investigated 

the effects of adding flavors and have shown that, in the holographic description of 

the conformal window, the geometry becomes AdS when approaching the ultraviolet and the 

infrared regimes. As the number of flavors increases within the conformal window we observed 

that the geometry becomes more and more of AdS type over the entire energy range. 

[Holographic Conformal Window - A Bottom Up Approach. Matti Jarvinen, Francesco Sannino, . 

CP3-ORIGINS:2009-23, Nov 2009. e-Print: arXiv:0911.2462 [hep-ph], Submitted for publication] 

Constraints on Conformal Windows from Holographic Duals. 

Oleg Antipin, Kimmo Tuominen,. P3-ORIGINS-2009-25, Dec 2009. 19pp. e-Print: arXiv:0912.0674 [hep-ph]] 

Lattice for Technicolor 

We presented results from high precision, large volume simulations of the lattice gauge theory 

corresponding to minimal walking technicolor. We find evidence that the pion decay constant 

vanishes in the infinite volume limit and that the dependence of the chiral condensate on quark 

mass is inconsistent with spontaneous symmetry breaking. These findings are consistent with 

the all-orders beta function prediction as well as the Schroedinger functional studies that indicate 

the existence of a nontrivial infrared fixed point. 

[Probes of nearly conformal behavior in lattice simulations of minimal walking technicolor. 

Simon Catterall, (Syracuse U.) , Joel Giedt, (Rensselaer Poly.) , Francesco Sannino, (Southern Denmark U., 

CP3-Origins) , Joe Schneible, (Syracuse U.) . CP3-ORGINS:-2009-14, Oct 2009. 16pp. 

e-Print: arXiv:0910.4387. Submitted for publication] 

For the future our research plan is to: 

• Develop new analytic tools to attack nonperturbative dynamics. These include the aforementioned 

beta function, extradimensional approaches derived from string theory as well as alternative 

large number of colors limits. 

• Fully investigate the phase diagram also as function of temperature, matter density and with 

multiple matter representations. 

• Extend the calculations of gauge theories with fermions in higher-dimensional representations 

to large lattices and smaller lattice spacings. 

The phase diagram of strongly coupled theories has an immediate impact upon the construction 

of sensible extensions of the SM. The dynamical breaking of the electroweak symmetry is a 

time-honoured example. Cosmology will be impacted as well if technibaryons are the cold dark 

matter candidates as mentioned earlier. Their properties would very much help cosmologists 

since details about their interactions with ordinary matter could be derived via first principle 

computations. Last but not least, charting out the phase diagram is of the utmost importance for 

QCD and hence for the heavy ion programme at the LHC. Our group together with its close 

collaborators unites expertise relevant for studying the theory and phenomenology of nucleus-- 

nucleus collisions, and to explore matter in extreme conditions. 

Beyond Particle Physics 

CP³-Black book 17

The geometry group at SDU provides the mathematical soul of the centre and is involved in 

providing a strong training in mathematics and complementary expertise for the high energy 

component. SM extensions have a significant mathematical content, particularly in the form of 

differential geometry, Lie group theory and topology. We report below some of their scientific 

output and ongoing research. 

Hyperkähler Modifications 

We investigated a general framework for cutting constructions and reinterpret in this setting the 

work on non-Abelian symplectic cuts by Weitsman. We then introduced two analogous non- 

Abelian modification constructions for hyperkähler manifolds: one modifies the topology significantly, 

the other gives metric deformations. We highlighted ways in which the geometry of 

moment maps for non-Abelian hyperkähler actions differs from the Abelian case and from the 

non-Abelian symplectic case. 

[Non-Abelian Cut Constructions and Hyperkähler Modifications. Andrew Dancer (Oxford), 

Andrew Swann (IMADA & CP3-Origins), arXiv:1002.1837. Submitted for Publication] 

Harmonic Maps 

We used filtrations of the Grassmannian model to produce explicit algebraic formulae for harmonic 

maps of finite uniton number from a Riemann surface to the unitary group for a general 

class of factorizations by unitons. We showed how these specialize to give explicit formulae for 

harmonic maps into the special orthogonal and symplectic groups, real, complex and quaternionic 

Grassmannians, and the spaces SO(2m)/U(m) and Sp(n)/U(n), i.e., all the classical compact 

Lie groups and their inner symmetric spaces. Our methods also give explicit J_2- 

holomorphic lifts for harmonic maps into Grassmannians and an explicit Iwasawa decomposition. 

[Filtrations, factorizations and explicit formulae for harmonic maps. Martin Svensson 

(IMADA & CP 3 -Origins), John C. Wood (Leeds), arXiv:1002.1837. Submitted for Publication] 

Strong KT geometry 

A strong KT (SKT) manifold consists of a Hermitian structure whose torsion three-form is 

closed. We classified the invariant SKT structures on four-dimensional solvable Lie groups. The 

classification includes solutions on groups that do not admit compact four-dimensional quotients. 

It also shows that there are solvable groups in dimension four that admit invariant complex 

structures but have no invariant SKT structure. 

[Invariant strong KT geometry on four-dimensional solvable Lie groups. Thomas Bruun Madsen 

(IMADA and CP 3 -Origins) and Andrew Swann (IMADA and CP 3 -Origins), IMADA-PP-2009-16, CP3- 

ORIGINS: 2009-22,arXiv:0911.0535v1 [math.DG]. Submitted for Publication] 

We will continue investigating the geometric structure of the Standard Model and its extensions. 

One interesting example is the topological structure of generic models of dynamical electroweak 

symmetry breaking. The physics of these topological terms can be investigated at the 

LHC. 

CP³-Black book 18

Milestones 

Scientific 

The roadmap covers a broad spectrum of research activities. We indicate here the scientific and 

recruitment milestones for the next two years. Within this time we expect to have: 

• Constructed benchmarks for dynamical electroweak symmetry breaking. 

• Made progress on the phase diagram of strongly interacting theories both analytically and via 

lattice simulations. 

• Assessed signatures for new physics in the quark flavour sector, in collaboration with experimental 

colleagues. 

• Proposed new models with TeV scale neutrinos. 

Progress will be measured by the high quality of the scientific output of the team in the form of 

peer-reviewed research papers, proceedings and invited presentations at international conferences. 

We will constantly keep updated with respect to recent experimental results and theoretical 

developments and will adjust our research plan to maximize our scientific impact. 

Recruitment and Meetings 

Recruitment follows the schedule detailed in the new Appendices of the original contract with a 

few adjustments meant to further strengthen the centre’s international impact. The adopted recruitment 

strategy ensures steady progress and optimal research output. In the year 2010 we 

will organize the conference “Origin of Mass 2010” and one graduate school in November 2010 

where the Nobel prize in physics G. ‘t Hooft will lecture. We have already been accepted to be 

the main organizers of the meeting “Origin of Mass 2012” in Nordita, Sweden. The first two 

events will take place at the centre and will be prepared in collaboration with our renowned 

international partners. We briefly summarize below the tentative hiring schedule for the coming 

year. 

SDU will open at least one new tenure-track assistant professor position expected to be filled by 

the Fall 2010 in particle physics and cosmology. The position is fully financed by the institution. 

We have already hired two postdocs to start in the fall in 2010. We will open two more positions 

in the fall 2010. 

We have already hired two PhDs students and will open at least one more position for 2010. 

Prof. Stanley J. Brodsky has just arrived, March 19 2010, and will spend several months at the 

centre as distinguished H.C. Andersen Academy professor. 

CP³-Black book 19

Community 

As a bright scientific beacon, the CP 3 -Origins centre at the University of Southern Denmark is 

both enriching and serving the research community. It puts Denmark at the forefront of research 

in this field and creates the potential for achieving substantial global recognition. 

Being in the frontline, our approach is one of transparency, accountability and a real commitment 

to engaging citizens. Value to the community can be measured qualitatively in terms of 

the centre becoming a household name in Odense and in the Region, and by generating greater 

interest in the public arena, and quantitatively in its effect on the numbers of young people 

choosing to study physics at higher levels. 

We have launched a large number of extremely successful and novel outreach activities that will 

harness the energy generated by the fascination of young and old alike for particle physics, to 

further fuel our work and to give something tangible and of quality in return. 

Science Revealed Behind Angels and Demons 

CP³-Origins together with the University of Southern Denmark, CERN, Fermilab, the US Department 

of Energy, National Science Foundation, as well as several other worldwide organizations 

proudly presented the science revealed behind the 

Sony Pictures blockbuster Angels and Demons. The events 

took place on October 20 and 21st 2009 at the Kulturmaskine 

conference center in Odense. The first day was 

reserved for high school students while the second day 

was open to the general public. The event was a success 

and sold out on both days. 

CP³-Genius Program 

We launched in February 2010 a novel initiative meant to allow the brightest young minds at 

the bachelor and high school level to join the research activities at our centre. 

Here is the way it works: 

For Bachelor Students: If you are enrolled as a bachelor student in physics at the University of 

Southern Denmark, and you think you are not challenged enough, you have top grades and are 

burning for understanding the fundamental laws of the universe, you are perfect for the genius 

program. 

You will: 

• Keep following your standard bachelor curriculum in physics and, at the same time, you will 

be able to join the advanced research programs at our centre. 

• Be part of a mini unit consisting of a graduate student (master and/or PhD student), an experienced 

researcher (typically a postdoc), and a staff member. 

• Be assigned a research topic on which you will have to report regularly and possibly do research 

work on it. 

CP³-Black book 20

• Be able to acquire the required skills ranging from the use of supercomputers, advanced theoretical 

physics concepts and mathematics in order to address 

the challenging problems you will encounter. 

For High School Students: High school students with excellent 

grades in mathematics and physics can be hosted for one or 

two days at our centre. Here the student will be assigned to 

a mini unit like the one above and will be able to learn 

about some of the basic topics in cosmology, high energy 

physics and more generally learning about the fundamental 

laws of the universe and why they must be amended to explain 

yet the many open questions in cosmology and particle 

physics. 

For High School Teachers: We will be happy to have high school teachers and their classes visiting 

our centre and get up-to-date information about the fundamental laws of the universe. 

They will learn about the latest news from the Large Hadron Collider experiment at the European 

Centre of Nuclear Research (CERN) in Geneva, Switzerland. We will let them know also 

about the latest news on dark matter and energy obtained 

via cosmological observations. We will introduce in lay 

terms new theories and ideas which might help solve some 

of the fundamental puzzles posed by nature. 

The program has been a great success and the centre counts 

already five CP³-genius bachelor students who have started 

in February/March. We hosted the first students from the 

Tornbjerg Gymnasium on the 12th of February 2010. The 

pictures here are from the school visit. 

This honor program concept is being copied by several other research centres in Denmark. 

CP³-Black book 21

CP³ in the Press 

Several times the centre, and centre members appeared in the news or contributed with articles 

in magazines specialized for scientific outreach. Two examples are: i) The article published on 

the 29th of September 2010 “Stoffets hemmelighed skal afsløres i Odense” appeared on 

videnskab.dk; ii) The contribution 

“Universets lyse og mørke 

side”, by the centre’s leader, published 

on the Aktuel Naturvidenskab 

magazine. 

Several other scientific outreach 

magazines have written about 

the centre’s activities. 

Illustration: NASA, ESA and R. Massey (California Institute of Technology). 

CP³-Black book 22

CP 3 -Origins Poster Collection 

PhD, Postdoc and Faculty Positions 

June 18, 2009 

University Hall 

8 pm 

Lorem ipsum dolor. Fusce urna 

magna neque vita. 

Ipsum in consectetuer 

Proin in sapien. Proin in 

sapien. Fusce urna magna 

neque egeuat vita consectetuer 

Proin in sapien. 

Proin in sapien. Fusce 

urna magna egeuat. 

Proin in sapien 

Fusce urna magna neque 

egeuat vita consectetuer 

in sapien. Fusce urna 

magna neque egeuat vitae 

lorem ipsum dolor urna 

magna 

Consectetuer in 

In consectetuer Proin in 

sapien. Proin in sapien. 

Fusce urna magna neque. 

Fusce urna magna neque 

egeuat vitae lorem ipsum 

The Centre of excellence in Particle Physics and Phenomenology 

dolor urna magna. 

C P 3 

- O r i g i n s 

Dark and Bright Mass’ Origins 

has openings for outstanding candidates at the level of PhD, postdoc 

and faculty positions in particle physics phenomenology. 

www.cp3-origins.dk 

Director 

Francesco Sannino, CP 3 - Origins 

Board Members 

Stan J. Brodsky, SLAC/Stanford 

Paolo Di Vecchia, NORDITA 

Paul Hoyer, Helsinki 

Michelangelo Mangano, CERN 

Finn Ravndal, Oslo 

Torbjörn Sjöstrand, Lund 

Courtesy of SLAC and Nicolle Rager 

Contact: Francesco Sannino sannino@cp3.sdu.dk 

CP³-Black book 23

C P 3 


Origins of Dark and Bright Mass 

Inauguration of the Centre for Particle Physics Phenomenology 

Key note speakers 

Bock (DNRF) 

Brodsky (SLAC/Stanford) 

Di Vecchia (NORDITA) 

Hoyer (Helsinki) 

Mangano (CERN) 

Pedersen (SDU) 

Ravndal (Oslo) 

Sannino (CP! - Origins) 

Sjöstrand (Lund) 

Tuesday 24 November 2009 

Auditorium 100, Univ. Southern Denmark 

Meeting Starts at 10 AM 

CP³-Black book 24

C P 3 


Origins of Dark and Bright Mass 

Origin of Mass Mini Workshop 

Main speakers 

Keijo Kajantie (Helsinki) 

18 

16 

14 

Chris Kouvaris (Brussels) 12 

Isabella Masina (CP! & Ferrara) 10 

N f 

8 

Kari Rummukainen (Helsinki) 

6 

Subir Sarkar (Oxford) 

4 

Robert Shrock (Stony Brook) 

2 

Local Organizing 

Committee 

0 

2 3 4 5 6 7 

N 



Joseph Schechter 

Kimmo Tuominen 

Wednesday November 25, 2009 


CP³-Black book 25

2nd Odense Winter School on 

Geometry and Theoretical Physics 

Main speakers 

Luigi del Debbio (Edinburgh) 

Claudio Pica (Edinburgh) 

George Papadopoulos (King's London) 

Nigel Hitchin (Oxford) 

Thomas Ryttov (Stony Brook) 

Francesco Sannino (Southern Denmark) 

Mads Frandsen (Oxford) 

Andrew Swann (Southern Denmark) 

Local Organizing Committee 



Martin Svensson 

Andrew Swann 

November 26-27, 2009 

imada.sdu.dk/~swann/Winter-2009/ 

GEOMAPS 

www.geomaps.au.dk 

CP³-Black book 26

Origin of Mass 2010 

Understanding what lies beyond 

Review Talks 

Michael Creutz (BNL) 

George T. Fleming (Yale) 

Chris Hill (Fermilab) 

Fabio Maltoni (CP3-Louvain) 

Andrea Romanino (SISSA) 

Raju Venugopalan (BNL) * 

* To be confirmed 

Experimental Overviews 

Thomas Peitzmann (ALICE) 

Alesandro Nisati (ATLAS) 

Richard Schnee (CDMS) 

Hannu Kurki-Suonio (Planck) 

Committees 

International Advisory! ! Local Organizing 

Stanley J. Brodsky (SLAC)!! Dennis D. Dietrich 

R. Sekhar Chivukula (Michigan)! Stefano Di Chiara 

Paolo Di Vecchia (NORDITA)! Matti Järvinen 

Paul Hoyer (Helsinki)! ! Francesco Sannino 

Michelangelo L. Mangano (CERN)! Martin Svensson 

Finn Ravndal (Oslo)! ! Andrew Swann 

Elizabeth H. Simmons (Michigan)! Kimmo Tuominen 

Tjorbjörn Sjöstrand (Lund)! 

May 3-7, 2010 

CP³-Origins 

University of Southern Denmark 

Rubjerg Knude Fyr by Dennis D. Dietrich 

More information at cp3-origins.dk/mass2010 

CP³-Black book 27

CP³-Genius Program 

The Centre of excellence in Particle Physics Phenomenology 

The Revolutions to Come 

__________________________ 

We aim to make the next big leap 

in particle physics: 

Uncovering the origins of bright 

and dark mass in the universe. 

We launch a novel initiative meant to allow the brightest young minds at the bachelor level to join 

the research activities at our centre. 

If you have top grades and are burning for understanding 

the fundamental laws of the universe, you 

are perfect for the genius program. 

Here is the way it works 

You will: 

• Keep following your standard bachelor curriculum and, at the 

same time, you will join the advanced research programs at 

our centre. 

• Be part of a mini unit consisting of a graduate student (master 

and/or PhD student), an experienced researcher (typically a 

postdoc), and a staff member. 

• Be assigned a research topic on which you will have to report 

regularly and possibly do research work on it. 

• Be able to acquire the required skills ranging from the use of 

supercomputers, advanced theoretical physics concepts and 

mathematics in order to address the challenging problems you 

will encounter. 

Courtesy of SLAC and Nicolle Rager 

Please contact Lone Charlotte Nielsen lcnielsen@cp3.sdu.dk 

or see: 


CP³-Black book 28

Personnel Overview 01.09-31.12.2009 

Personnel 

Employment 

period in 2009 

Financed by (indicated in fulltime 

equivalent) 

Foreign 

employee 

For ph.d.-stud. 

and postdocs: 

State previous 

education 

(cand.scient. etc.) 

Name 

Centre leader 

Designation of occupation 

DNRF 

Host Institution 

Francesco Sannino Professor entire period 1.0 

Scientific personnel 

Other 

financing 

(mark 

with a 

cross) 

Stefano Di Chiara Postdoc entire period 1.0 x PhD in Physics 

Dennis Dietrich Assistant Professor entire period 1.0 x 

Rolf Fagerberg Associate Professor entire period 0.1 

Hidenori Fukanu Sakuma Postdoc entire period 1.0 x PhD in Physics 

Matti Järvinen Postdoc entire period 1.0 x PhD in Physics 

Arne Lykke Larsen Associate Professor entire period 1.0 

Isabella Masina Adjunct Professor entire period 0.1 x 

Niels Kjær Nielsen Docent entire period 1.0 

Martin Svensson Associate Professor entire period 0.2 x 

Andrew Swann Associate Professor entire period 0.2 x 

Kimmo Tuominen Assistant Professor entire period 0.7 0.3 x 

Roman Zwicky Adjunct Professor entire period 0.1 x 

Guest researchers 

Joseph Schechter Professor entire period 1.0 x 

Jacopo Bechi 

Postdoc 

01.09.2009-30 

.11.2009 1.0 x PhD in Physics 

Administrative personnel 

Academic Staff, IT, 20 

Jens Svalgaard Kohrt h/weekly entire period 0.5 

Lone Charlotte Nielsen Centre Secretary entire period 1.0 

Ph.d.-students 

Thomas Bruun Madsen PhD student entire period 1.0 

Master in Mathematics 

CP³-Black book 29

Postdoctoral Positions 2009 - Statistics 

We received 165 applications for two postdoctoral positions in particle physics. Since we were 

curious to know from which countries the applications came, we made a pie representing the 

distribution of the nationalities of the pool of applications we received, another pie representing 

the continents and another the gender distribution. In total, we received applications from 41 

different countries. 

CP³-Black book 30

Appendix 

Appendix A: External Relations 

Collaborator 

Name (person and/or 

institution) Country 

Collaboration 

subject and/or 

title 

Århus University, DK C, X Ongoing 

Output/ results of 

collaboration, if 

any 

Brookhaven National Lab, C 

Ongoing 

USA 

x 

Brussels University, BE A, B 1 paper (arXiv: 

0911.4096) x 

Cambridge University A, C Ongoing 

CERN, CH A, B, C Ongoing 

x 

Copenhagen University, DK C Ongoing 

x 

Edinburgh University, UK A, C Ongoing 

x 

Fermilab, US A, B Ongoing 

x 

Ferrara University, IT A, B 1 paper (arXiv: 

0905.1331) x 

Firenze University, IT A Ongoing 

x 

Frankfurt University, DE C Ongoing 

x 

Groningen University, NT C Ongoing 

x 

Harvard University A, C Ongoing 

Jena University, DE A, C Ongoing 

x 

LNF, IT A, B, C Ongoing 

x 

Ludwig-Maximilians- 

Universitaet Muenchen 

A 

Ongoing 

x 

Lund University, SE C, X Ongoing 

x 

Michigan State University, 

USA 

A 

1 paper 

(arXiv:0908.1079) 

x 

NORDITA, SE A Ongoing 

x 

Oslo University, NO A Ongoing 

x 

Oxford University, UK A, B 1 preprint (arXiv: 

0911.0570) x 

Pisa University, IT C Ongoing 

x 

Rensselaer Poly. USA C 1 preprint (arXiv: 

0910.4387) x 

Southampton University, UK A, B, C Ongoing 

x 

Stanford University, USA C Ongoing 

x 

Stony Brook University, 

USA 

A, C Ongoing 

x 

Swansea University, UK A, C Ongoing 

x 

Syracuse University, USA A, C 1 preprint (arXiv: 

0910.4387) x 

Technical University of X 

Manuscript under 

Denmark 

preparation 

x 

Technion & University of X 

One article and a 

Haifa, Israel 

draft 

x 

University of Helsinki, Finland 

A, C 1 paper (arXiv: 

0910.3681) x 

University of Jyväskylä, 

Finland 

A, B, C 2 papers (arXiv: 

0910.3681, 

0912.2295), 2 preprints 

(arXiv:0909.4879, 

0912.0674) x 

University of Leeds X Manuscript to appear 

in Quarterly 

Journal of Mathematics 

University of Wuppertal A, C Ongoing 

Yale University, USA A, C Ongoing 

Collaboration with: (Please tick the appropriate box) 

Danish universities, 

Foreign universi- 

Danish com- 

Foreign 

research ties, research panies companies 

groups and groups and institutions 

institutions 

x 

x 

x 

x 

CP³-Black book 31

A: Corresponds to 3.1 in the Project = Models (Origin of Dark and Bright Mass) 

A1 = Dynamical Origin of Mass 

A2 = Stringy Extensions 

A3 = Supersymmetric extensions of the Standard Model with Strong Dynamics 

B: Corresponds to 3.2 in the Project =Flavour and CP Violation 

B1 = Flavour structure and violation in extensions of the SM 

B2 = Matter and Antimmater asymmetry problem 

C: Corresponds to 3.3 in the Project = Strong Interactions 

C1 = Phases of Nature 

C2 = LHC Tools 

X: Corresponds to 4.7 in the Project = Beyond Physics/Interdisciplinary 

X1 = Computer Science for Particle Physics. 

X2 = Geometrical aspects of the Standard Model and Beyond 

CP³-Black book 32

Appendix B: Conferences 

Please outline the centres disseminations of results and networking through participation 

in large international conferences, symposia etc. by a) list the number of conferences, 

symposia, seminars etc. the centre has arranged or participated in the planning 

of and by b) list the number of conferences, symposia, seminars etc. the centre has participated 

in with contributions. 

a) Organisation of international conferences, symposia, seminars etc. 

Title of event 

Number of participants, estimated distribution: 

Danish 

International 

Journal Club: Perturbed S3 neutrinos 6 12 

Journal Club: Nature of light scalar mesons f0(600) 

6 12 

and a0(980) from a linear sigma model with vector 

mesons 

Journal Club: QCD condensates in ADS/QCD 6 12 

Journal Club: Unnatural Technicolor 6 12 

Journal Club: The Mass Anomalous Dimension of 

6 12 

SU(2) with two Adjoint Fermions 

Journal Club: Multi-Moment Maps 6 12 

Journal Club: Self-Similarity and Power Asymptotics 

29 12 

for Families of Stochastic Processes 

Journal Club: Resumming Leading Logarithmic Corrections 

6 12 

in O(N) 

Lecture: Primordial Non-Gaussianity in the Cosmic 

6 12 

Microwave Background as a probe of fundamental 

physics 

Lecture: Candidates for Dark Matter 6 12 

Lecture: Topology and the Universe 6 12 

Lecture: Approaching QCD via Holography 6 12 

Lecture: Lattice studies of chiral symmetry 6 12 

Lecture: Center symmetry in the planar limit of SU(N) 

6 12 

gauge theories with fermions in two-index representations, 

and orientifold planar equivalence 

CP³-Origins Inauguration 31 25 

Origins of Mass Mini Workshop 9 19 

Winter School on Geometry and Theoretical Physics 13 

CP³-Black book 33

) Participation in international conferences, symposia, seminars etc. 

Title of event Venue Name(s) of participant(s) 

Contribution Invited talk 

(talk, abstract, 

paper, check) 

(please 

poster, 

other) 

Brazilian Physical Society Meeting 

Brazil Francesco Sannino Plenary Talk x 

LC09 Perugia, Italy Francesco Sannino Plenary Talk x 

Referee for Oslo University CERN Francesco Sannino Referee 

Seminar 

Seminar 

Strong Coupling Gauge Theories 

in LHC Era 

XII Mexican Workshop on Particles 

and Fields 

Cluster of Excellence 

for Fundamental 

Physics 

Arnold Sommerfeld 

Centre for Theoretical 

Physics 

Noyori Conference 

Hall, Nagoya University, 

Nagoya, 

Japan 

Mazatlan, Mexico, 

November 2009 



Francesco Sannino, 

Kimmo Tuominen, 

Hidenori Fukano 

Sakuma 

Joseph Schechter 

Talk 

Talk 

Plenary Talk 

Talk 

Talk 

Talk, Minicourse 

lectures 

Geometry Seminar Oxford University Andrew Swann Talk x 

x 

x 

CP³-Black book 34

Appendix C: Educational activities 

Please list all educational activities the centre is involved in. Including PhD-courses, 

courses on bachelor- and master-level and other activities on academic level as well as 

summer schools and courses taught abroad. Please state ECTS points (if possible) and 

length of the course (in hours) 

Title and date of activity ECTS Length of course Number of participants 

(number of hours) 

Riemannian geometry and Einstein metrics, Master's 

5 50 9 

course, September-November 2009 

Supersymmetry, Master's course, November- 

5 25 3 

December 2009. 

From LHC to ILC, study activity, September- 

5 15 1 

October 2009. 

Lattice field theory, study activity, September- 

5 0 1 

October 2009. 

Quantum physics, Master's course, September- 10 84 6 

December 2009. 

Origins of Mass, mini workshop, 25 November. 

2009. 

0 5 28 participants, of which 

5 were students 

Winter School on Geometry and Physics, International 

confrence and workshop, 26-27 November 

0 10 42 participants, of which 

12 were students 

2009. 

CP3 journal club, September-December 2009. 0 8 On average 18 participants, 

of which 5 were 

students 

CP3 lectures, September-December 2009. 0 6 On average 18 participants, 

of which 5 were 

students 

Students supervised at the centre by staff members 

Number of graduated PhD-students Number of graduated Master-students 

0 1 

CP³-Black book 35

Appendix D: Academic services 

Please list the activities for the entire group of centre staff members. 

a) Scholarly communication 

Title of the journal 

Editorial work 

(please check) 

PRD Referee 2 

MPLA Referee 2 

Glasgow Mathematical 

Journal 

Referee 1 

PRD = Physical Review D 

MPLA = Modern Physics Letters A 

Number of peer 

reviews and preassessments 

done 

for the journal 

b) Assessments, international panels, membership and supervision 

Number of staff 

conducting academic 

services 

Number of grant 

and/or career/ 

tenure assessments 

plus international 

panels 

Number of positions 

and council seats in 

learned societies 

Number of Ph.d. 

and doctor evaluations, 

national and 

international 

Number of primary 

supervisions of 

Ph.D and master 

students 


6 number of grants, 

2 international assessments 

4 seats as a board 

member 

0 2 Ph.D students, 4 

Master 

Kimmo Tuominen 0 0 0 5 Ph.D students, 1 

Master 

Memberships: 

German Physical Society 

Physical Society of Frankfurt 

CP³-Black book 36

Appendix E: External funding 

Please list all external funding gained by the centre leader or centre members. List 

only funding gained for centre activities including external PhD-grants. List the full 

amount and the part of the total amount allocated to reported year. 

Public Danish 

funds 

Origin of Mass 

(Major Framework 

Grant) 

Gauge Theories 

of Fundamental 

Interactions: Theory 

and Phenomenology 

(SKOU) 

EliteForsk-pris 

(Framework 

Grant) 

GEOMAPS 

Steno grant 

Origin of Mass on 

Supercomputers 

Private Danish 

funds 

Villum Kann 

Rasmussen 

Postdoc Blokstipendium 

International 

funds 

Funding 

body 

Forskningsog 

Innovationsstyrelsen 

Forskningsog 


Forskningsog 


Forskningsog 


Forskningsog 


Danish Center 

for Scientific 

Computing 

Villum Kann 

Rasmussen 

Fonden 

Purpose Applicant Activity period 

Research 

Research 

Research 

Research 

Hardware 

Research 

Francesco 

Sannino 

Francesco 

Sannino 

Francesco 

Sannino 

Francesco 

Sannino & 

Andrew 

Swann 

Dennis Dietrich 

Francesco 

Sannino 

Francesco 

Sannino 

01.01.2009-3 

1.12.2011 

Until 

31.12.2009 

01.02.2010-3 

1.12.2012 

01.01.2008-3 

1.12.2010 

01.10.2007-3 

0.09.2010 

01.04.2008-3 

1.03.2012 

01.04.2009-0 

1.10.2010 

Granted 

amount in 

DKK 

Part of total 

amount allocated 

to reported 

year 

3,500,000 554,649 

714,394 133,691 

1,000,000 - 

300,000 80,000 

2,260,000 251,000 

800,000.00 300,000 

512,594 24,526 

CP³-Black book 37

Appendix G: Public outreach 

Please list public outreach activities in media, press, high schools etc. 

a)Electronic 

media 

Specific media (TV, 

radio, other) 

Date 

Type of communication 

(inter-view, commentary, 

debate, feature 

program etc) 

Subject/ Title 

Contributor from the 

centre 

Videnskab.dk 29.09.2009 Article Stoffets hemmelighed 

skal afsløres 

i Odense 


TV2 Fyn website 26.11.2009 Article SDU forsker i universets 

gåder 


b)Press 

Specific media 

(Daily newspapers, 

journals, magazines, 

other) 

Date 

Type of communication 

(inter-view, commentary, 

debate, feature 

etc) 

Subject/ Title 

Fyens Stiftstidende 26.11.2009 Article SDU skal knække 

universets gåde 

Aktuel Naturvidenskab 

25.11.2009 Article Universets lyse og 

mørke sider 

Contributor from the 

centre 



c)Other (talks at secondary educational institutions etc) 

Specific type of 

communication 

(presentation/ 

lecturing at open 

university, high 

school etc) 

Date Subject/Title Contributor from the 

centre 

Public lecture 20-21.10.2009 Science revealed behind 

Angels and Demons 

Francesco Sannino, 

Jakob Jark Jørgensen, 

Matin Mojaza, 

Ulrik Søndergaard 

CP³-Black book 38

Appendix I: Publications 

The following is the complete publication list for CP 3 -Origins in 2009. 

Num 

ber 

Year Authors and Affiliations Title Place of publication 

0 2009 A.H. Fariborz, N.W. Park, J. Schechter Gauged linear sigma model and Phys.Rev.D80:113 

(Syracuse University & CP³-Origins) and pion-pion scattering 

001, 2009 

M.N. Shahid (PR) (CO) 

1 2009 Mads T. Frandsen (NBI and CP³-Origins), Fourth Lepton Family is Natural Phys.Rev.D81:035 

Isabella Masina (University of Ferrara and in Technicolor 

010,2010. 

CP³-Origins) and Francesco Sannino (CP³- 

Origins) (PR) (CO) 

2 2009 Thomas A. Ryttov (NBI) and Francesco Conformal House 

Sannino (CP³-Origins) (CO) 

3 2009 Dennis D. Dietrich (CP³-Origins) (PR) Concerning gauge field fluctuations 

around classical configurations 

Phys.Rev.D79:107 

703,2009 

arXiv 

arXiv:0905.1331v1 

arXiv:0906.0307v1 

arXiv:0904.0820v 

4 2009 Dennis D. Dietrich (CP³-Origins) and Matti Pion masses in quasiconformal Phys.Rev.D79:057 arXiv:0901.3528v1 

Järvinen (CP³-Origins) (PR) 

gauge field theories 

903,2009 

5 2009 Dennis D. Dietrich (CP³-Origins) (PR) On invariants for particle propagation 

Phys.Rev.D80:067 arXiv:0903.2293v2 

in non-Abelian fields 701,2009 

6 2009 Francesco Sannino (CP³-Origins) (PR) QCD Dual Phys.Rev.D80:065 arXiv:0907.1364v 

011,2009 

7 2009 Dennis D. Dietrich (CP³-Origins) (PR) A mass-dependent β−function Phys.Rev.D80:065 arXiv:0908.1364v3 

032,2009 

8 2009 Hidenori S. Fukano (CP³-Origins) and Minimal Flavor Constraints for 

arXiv:0908.2424v2 

Francesco Sannino (CP³-Origins) 

Technicolor 

9 2009 Dennis D. Dietrich (CP³-Origins), Matti Järvinen 

(CP³-Origins) and Chris Kouvaris (NBI) 

(CO) 

Linear confinement without 

dilaton in bottom-up holography 

for walking technicolor 

arXiv:0908.4357v1 

10 2009 Dennis D. Dietrich (CP³-Origins) (PR) Dynamical electroweak symmetry 

breaking by quasiconformal 

technicolor theories 

11 2009 Francesco Sannino (CP³-Origins) et al. (PR) 

(CO) 

12 2009 Renata Jora (Syracuse University), Joseph 

Schechter (Syracuse University & CP³- 

Origins), M. Naeem Shahid (Syracuse University 

& CP³-Origins) (PR) (CO) 

From the LHC to Future Colliders 

(LHC2FC) WG 2 (No Higgs) 

Summary 

Perturbed S3 neutrinos 

Kraków, Poland, 

The Auditorium 

Maximum of the 

Jagiellonian University 

CERN-PH-TH/ 

2009-166, DCPT/ 

09/136, IPPP/09/ 

068, SLAC-PUB- 

13782 - invited 

contribution for 

CERN Yellow Book 


007,2009 

arXiv:0909.3240v1 

arXiv:0909.4414v1 

13 2009 Francesco Sannino (CP³-Origins) (PR) Higher Representations Duals Nucl.Phys.B830:17 arXiv:0909.4584v1 

9.194,2010 

14 2009 Francesco Sannino (CP³-Origins) et al. (CO) Probes of nearly conformal 

behavior in lattice simulations of 

minimal walking technicolor 

arXiv:0910.4387v1 

15 2009 Jacopo Bechi (CP³-Origins) Instantons and quark zero 

arXiv:0909.3015v1 

modes in AdS/QCD 

16 2009 Jacopo Bechi (CP³-Origins) QCD condensates in ADS/QCD arXiv:0909.4721v1 

17 2009 Oleg Antipin (University of Jyväskylä), Resizing the Conformal Window: 

arXiv:0909.4879v2 

Kimmo Tuominen (CP³-Origins) (CO) A beta-function Ansatz 

18 2009 Matti Antola (University of Jyväskylä), Matti 

Heikinheimo (University of Jyväskylä), 

Francesco Sannino (CP³-Origins), Kimmo 

Tuominen (CP³-Origins)(CO) 

Unnatural Origin of Fermion 

Masses for Technicolor 

Accepted for publication 

in JHEP 

arXiv:0910.3681v1 

19 2009 Mads T. Frandsen (Oxford University), 

Francesco Sannino (CP³-Origins) (CO) 

i-TIMP: isotriplet Technicolor 

Interacting Massive Particle as 

Dark Matter 

20 2009 Francesco Sannino (CP³-Origins) (PR) Conformal Dynamics for TeV 

Physics and Cosmology 

21 2009 Matti Järvinen (CP³-Origins), Niko Jokela 

(Technion & University of Jaifa, Israel), Esko 

Keski-Vakkuri (Helsinki Institute of Physics) 

(PR) (CO) 

22 2009 Thomas Bruun Madsen (CP³-Origins), Andrew 

Swann (CP³-Origins) 

23 2009 Matti Järvinen (CP³-Origins), Francesco 

Sannino (CP³-Origins) 

24 2009 Matti Järvinen (CP³-Origins), Chris Kouvaris 

(Université Libre de Bruxelles), Francesco 

Sannino (CP³-Origins) (CO) 

Electrostatics approach to closed 

string pair production from a 

decaying D-brane 

Invariant strong KT geometry on 

four-dimensional solvable Lie 

groups 

Holographic Conformal Window - 

A Bottom Up Approach 

Gravitational techniwaves 

Acta Physica 

Polonica B, pages 

3533-3743, Vol. 40 

- Number 12 

(2009) 


010,2009 

Accepted for publication 

in PRD 

arXiv:0911.1570v2 

arXiv:0911.0931v1 

arXiv:0911.0339v1 

arXiv:0911.0535v1 

arXiv:0911.2462v2 

arXiv:0911.4096v1 

CP³-Black book 39

25 2009 Oleg Antipin (University of Jyväskylä), 

Kimmo Tuominen (CP³-Origins) (CO) 

Constraints on Conformal Windows 

from Holographic Duals 

26 2009 Kimmo Kainulainen (University of Jyväskylä Superweakly interacting dark 

& University of Helsinki), Kimmo Tuominen matter from the Minimal Walking 

(CP³-Origins), Jussi Virkajarvi (University of Technicolor 

Jyväskylä & University of Helsinki) (PR) (CO) 

27 2009 Jacopo Bechi (CP³-Origins) Statistical Hadronization and 

Holography 

28 2009 Jacopo Bechi (CP³-Origins) Comments on the Chiral Symmetry 

Breaking in Soft Wall 

Holographic QCD 

JCAP 

1002:029,2010 

arXiv:0912.0674v2 

arXiv:0912.2295v1 

arXiv:0912.2660v2 

arXiv:0912.2681v2 

For the reporting to the Danish National Research Foundation, only published papers are listed 

and they are divided into types of publications. 

Peer-reviewed publications 

Num 

ber 


0 2009 A.H. Fariborz, N.W. Park, J. Schechter Gauged linear sigma model and Phys.Rev.D80:113 

(Syracuse University & CP³-Origins) and pion-pion scattering 

001, 2009 

M.N. Shahid (PR) (CO) 

1 2009 Mads T. Frandsen (NBI and CP³-Origins), Fourth Lepton Family is Natural Phys.Rev.D81:035 

Isabella Masina (University of Ferrara and in Technicolor 

010,2010. 

CP³-Origins) and Francesco Sannino (CP³- 

Origins) (PR) (CO) 

3 2009 Dennis D. Dietrich (CP³-Origins) (PR) Concerning gauge field fluctuations 

around classical configurations 


703,2009 

4 2009 Dennis D. Dietrich (CP³-Origins) and Matti 

Järvinen (CP³-Origins) (PR) 

Pion masses in quasiconformal 

gauge field theories 


903,2009 

5 2009 Dennis D. Dietrich (CP³-Origins) (PR) On invariants for particle propagation 


in non-Abelian fields 701,2009 

6 2009 Francesco Sannino (CP³-Origins) (PR) QCD Dual Phys.Rev.D80:065 

011,2009 

7 2009 Dennis D. Dietrich (CP³-Origins) (PR) A mass-dependent β−function Phys.Rev.D80:065 

032,2009 

12 2009 Renata Jora (Syracuse University), Joseph Perturbed S3 neutrinos 


Schechter (Syracuse University & CP³- 

007,2009 

Origins), M. Naeem Shahid (Syracuse University 

& CP³-Origins) (PR) (CO) 

13 2009 Francesco Sannino (CP³-Origins) (PR) Higher Representations Duals Nucl.Phys.B830:17 

9.194,2010 

21 2009 Matti Järvinen (CP³-Origins), Niko Jokela Electrostatics approach to closed Phys.Rev.D80:126 

(Technion & University of Jaifa, Israel), Esko string pair production from a 010,2009 

Keski-Vakkuri (Helsinki Institute of Physics) decaying D-brane 

(PR) (CO) 

26 2009 Kimmo Kainulainen (University of Jyväskylä 

& University of Helsinki), Kimmo Tuominen 

(CP³-Origins), Jussi Virkajarvi (University of 

Jyväskylä & University of Helsinki) (PR) (CO) 

Superweakly interacting dark 

matter from the Minimal Walking 

Technicolor 

JCAP 

1002:029,2010 

arXiv 

arXiv:0905.1331v1 

arXiv:0904.0820v 

arXiv:0901.3528v1 

arXiv:0903.2293v2 

arXiv:0907.1364v 

arXiv:0908.1364v3 

arXiv:0909.4414v1 

arXiv:0909.4584v1 

arXiv:0911.0339v1 

arXiv:0912.2295v1 

Peer-reviewed books/notes 

Num 

ber 


20 2009 Francesco Sannino (CP³-Origins) (PR) Conformal Dynamics for TeV 

Physics and Cosmology 

Acta Physica 

Polonica B, pages 

3533-3743, Vol. 40 

- Number 12 

(2009) 

arXiv 

arXiv:0911.0931v1 

CP³-Black book 40

Peer-reviewed proceedings 

Num 

ber 


10 2009 Dennis D. Dietrich (CP³-Origins) (PR) Dynamical electroweak symmetry 

breaking by quasiconformal 

technicolor theories 

11 2009 Francesco Sannino (CP³-Origins) et al. (PR) 

(CO) 

From the LHC to Future Colliders 

(LHC2FC) WG 2 (No Higgs) 

Summary 

Kraków, Poland, 

The Auditorium 

Maximum of the 

Jagiellonian University 

arXiv 

CERN-PH-TH/ arXiv:0909.3240v1 

2009-166, DCPT/ 

09/136, IPPP/09/ 

068, SLAC-PUB- 

13782 - invited 

contribution for 

CERN Yellow Book 

Also state: 

Total number of publications in reported year 

Peer reviewed 

divided into; 

Number of journal articles 11 

Number of conference series 2 

Number of monographs 1 

Number of book chapters 0 

Others 0 

Non-peer reviewed 

CP³-Black book 41

March 2010 Photo Gallery 

Faculty 

From left to right: Dennis D. Dietrich, Rolf Fagerberg, Paul Hoyer, Arne Lykke Larsen, Isabella Masina, Niels Kjær Nielsen 

From left to right: Claudio Pica, Francesco Sannino, Martin Svensson, Andrew Swann, Kimmo Tuominen, Roman Zwicky 

Board 

From left to right: Stanley J. Brodsky, Paolo Di Vecchia, Paul Hoyer, Michelangelo L. Mangano, Finn Ravndal, Torbjörn Sjöstrand 

Administrative Staff 

From left to right: Jens Svalgaard Kohrt, Lone Charlotte Nielsen 

CP³-Black book 42

Research Staff 

From left to right: Stefano Di Chiara, Matti Järvinen 

PhD Students 

From left to right: Eugenio Del Nobile, Tuomas Hapola, Thomas Bruun Madsen 

Master Students 

From left to right: Phongpichit Channuie, Jakob Jark Jørgensen, Matin Mojaza, Ulrik Ishøj Søndergaard 

Bachelor Students 

From left to right: Karin Dissauer, Helene Gertov, Asger Tobiesen, Martin Zangenberg 

CP³-Black book 43

• 

Address 

CP³-Origins 

University of Southern Denmark 

Campusvej 55, 5230 Odense M, Denmark 

Telephone: +45 6550 2316 

Email: lcnielsen@cp3.sdu.dk

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