2009 PUBLICATIONS[21] O. Drach<strong>en</strong>ko, D. V. Kozlov, V. Y. Aleshkin, V. I. Gavril<strong>en</strong>ko, K. V. Maremyanin, A. V. Ikonnikov, B. N. Zvonkov, M. Goiran,J. Leotin, G. Fasching, S. Winnerl, H. Schneider, J. Wosnitza and M. Helm. High-field splitting of the cyclotron resonanceabsorption in strained p-InGaAs/GaAs quantum wells. Physical Review B 79, 073301 (2009).[22] C. A. Duarte, G. M. Gusev, T. E. Lamas, A. K. Bakarov and J. C. Portal. Valley splitting and g-factor in AlAs quantum wells. InternationalJournal of Modern Physics B 23, 2948 (2009). 18th International Confer<strong>en</strong>ce on High Magnetic Fields in SemiconductorPhysics and Nanotechnology, Sao Pedro, BRAZIL, AUG 03-08, 2008.[23] C. Duboc and M.-N. Collomb. Détermination <strong>des</strong> proprités électroniques de complexes du manganèse. spectroscopie derésonance paramagnétique électronique à haut champ (RPE-HF) et calculs théoriques : une combinaison gagnante. ActualitéChimique 326, 19 (2009).[24] C. Duboc and M.-N. Collomb. Multifrequ<strong>en</strong>cy high field EPR investigation of a mononuclear manganese(IV) complex. Chem.Comm. 2717 (2009).[25] C. Faugeras, M. Amado, P. Kossacki, M. Orlita, M. Sprinkle, C. Berger, W. A. de Heer and M. Potemski. Tuning the electronphononcoupling in multilayer graph<strong>en</strong>e with magnetic fields. Physical Review Letters 103, 186803 (2009).[26] C. Faugeras, M. Orlita, S. Deutchlander, G. Martinez, P. Y. Yu, A. Riedel, R. Hey and K. J. Friedland. Measurem<strong>en</strong>t of the infraredtransmission through a single doped GaAs quantum well in an external magnetic field: Evid<strong>en</strong>ce for polaron effects. PhysicalReview B 80, 073303 (2009).[27] B. Fauqué, B. Vignolle, C. Proust, J. Issi and K. Behnia. Electronic instability in bismuth far beyond the quantum limit. NewJournal of Physics 11, 113012 (2009).[28] B. Fauqué, H. Yang, I. Sheikin, L. Balicas, J.-P. Issi and K. Behnia. Hall plateaus at magic angles in bismuth beyond the quantumlimit. Physical Review B 79, 245124 (2009).[29] O. M. Fedorych, S. A. Stud<strong>en</strong>ikin, S. Moreau, M. Potemski, T. Saku and Y. Hirayama. Microwave magnetoplasmon absorptionby a 2DEG stripe. International Journal of Modern Physics B 23, 2698 (2009). 18th International Confer<strong>en</strong>ce on High MagneticFields in Semiconductor Physics and Nanotechnology, Sao Pedro, BRAZIL, AUG 03-08, 2008.[30] D. Fishman, C. Faugeras, M. Potemski, A. Revcolevschi and P. H. M. van Loosdrecht. Magneto-optical readout of dark excitondistribution in cuprous oxide. Physical Review B 80, 045208 (2009).[31] M. Fittipaldi, L. Sorace, A.-L. Barra, C. Sangregorio, R. Sessoli and D. Gatteschi. Molecular nanomagnets and magnetic nanoparticles:the EMR contribution to a common approach. Physical Chemistry Chemical Physics 11, 6555 (2009).[32] S. Frantz, M. Sieger, I. Hart<strong>en</strong>bach, F. Lissner, T. Schleid, J. Fiedler, C. Duboc and W. Kaim. Structure, electrochemistry, spectroscopy,and magnetic resonance, including high-field EPR, of ((µ-abpy)[Re(CO) 3 X] 2 ) 0 , - where abpy = 2,2 ′ -azobispyridineand X = F, Cl, Br, I. J. Organomet. Chem. 694, 1122 (2009).[33] K. J. Friedland, A. Siddiki, R. Hey, H. Kostial, A. Riedel and D. K. Maude. Quantum hall effect in a high-mobility two-dim<strong>en</strong>sionalelectron gas on the surface of a cylinder. Physical Review B 79, 125320 (2009).[34] A. Goiran, J. M. Poumirol, M. P. Semtsiv, W. T. Masselink, D. Smirnov, V. V. Rylkov and J. Leotin. Magnetospectroscopy of AIPquantum wells. Transport and Optical Properties of Nanomaterials 1147, 3 (2009).[35] M. Goiran, M. P. Semtsiv, W. T. Masselink and J. Leotin. AlP/GaP quantum wells for implem<strong>en</strong>ting intersubband devices in the30-60 µm wavel<strong>en</strong>gth region. 2008 33rd International Confer<strong>en</strong>ce On Infrared, Millimeter And Terahertz Waves, Vols 1 And 2350 (2008).[36] J. Gonzalez, C. Power, E. Belandria, J. Jorge, F. Gonzalez-Jim<strong>en</strong>ez, M. Millot, S. Nanot, J. M. Broto and E. Flahaut. Pressuredep<strong>en</strong>d<strong>en</strong>ce of Raman mo<strong>des</strong> in double wall carbon nanotubes filled with -Fe. High Pressure Research 28, 577 (2008).[37] L. Gregoli, C. Danieli, A.-L. Barra, P. Neugebauer, G. Pellegrino, G. Poneti, R. Sessoli and A. Cornia. Magnetostructural correlationsin tetrairon(III) single-molecule magnets. Chemistry-A European Journal 15, 6456 (2009).[38] G. M. Gusev, S. Wiedmann, O. E. Raichev, A. K. Bakarov and J. C. Portal. Emerg<strong>en</strong>t and re<strong>en</strong>trant fractional quantum hall effectin trilayer systems in a tilted magnetic field. Physical Review B (Cond<strong>en</strong>sed Matter and Materials Physics) 80, 161302 (2009).[39] K. Haas, T. Kazimierczuk, P. Wojnar, A. Golnik, J. Gaj and P. Kossacki. Control of local electric fields influ<strong>en</strong>cing the photoluminesc<strong>en</strong>ceof an individual CdTe/ZnTe quantum dot. Acta Physica Polonica A 116, 896 (2009).[40] J. Jadczak, L. Bryja, P. Plochocka, A. Wojs, J. Misiewicz, D. Maude and M. Potemski. Combined exciton-cyclotron resonance inphotoluminesc<strong>en</strong>ce of a two-dim<strong>en</strong>sional hole gas. Acta Physica Polonica A 116, 852 (2009).[41] S. Jandl, A. A. Mukhin, V. Y. Ivanov, A. Balbashov and M. Orlita. Nd 3+ crystal-field study of weakly doped Nd 1−x Ca x MnO 3 .Journal of Magnetism and Magnetic Materials 321, 3607 (2009).[42] C. Jaudet, J. Levallois, A. Audouard, D. Vignolles, B. Vignolle, R. Liang, D. A. Bonn, W. N. Hardy, N. E. Hussey, L. Tailleferand C. Proust. Quantum oscillations in underdoped YBa 2 Cu 3 O 6.5 . Physica B-Cond<strong>en</strong>sed Matter 404, 354 (2009).[43] B. Jouault, M. Gryglas, M. Baj, A. Cavanna, U. G<strong>en</strong>nser, G. Faini and D. K. Maude. Spin filtering through a single impurity in aGaAs/AlAs/GaAs resonant tunneling device. Physical Review B 79, 041307 (2009).[44] M.-H. Juli<strong>en</strong>. Enhanced low-<strong>en</strong>ergy spin dynamics with diffusive character in the iron-based superconductor (La 0.87 Ca 0.13 )FePO:Analogy with high T-c cuprates. Journal of the Physical Society of Japan 77, 125002 (2008).[45] M. H. Juli<strong>en</strong>, H. Mayaffre, M. Horvatic, C. Berthier, X. D. Zhang, W. Wu, G. F. Ch<strong>en</strong>, N. L. Wang and J. L. Luo. Homog<strong>en</strong>eousvs. inhomog<strong>en</strong>eous coexist<strong>en</strong>ce of magnetic order and superconductivity probed by NMR in Co- and K-doped iron pnicti<strong>des</strong>. EuroPhysics Letters 87, 37001 (2009).[46] A. A. Kapustin, A. A. Shashkin, V. T. Dolgopolov, M. Goiran, H. Rakoto and Z. D. Kvon. Spin susceptibility and polarizationfield in a dilute two-dim<strong>en</strong>sional electron system in (111) silicon. Physical Review B 79, 205314 (2009).[47] Z. A. Kazei, V. V. Snegirev, N. P. Danilova, M. Goiran, L. P. Kozeeva and M. Y. Kam<strong>en</strong>eva. Microwave absorption spectra andthe problem of the crystal field in tetragonal compounds HoBa 2 Cu 3 O x (x=6.0, 6.3). JETP Letters 88, 725 (2008).143
PUBLICATIONS 2009[48] T. Kazimierczuk, A. Golnik, M. Goryca, P. Wojnar, J. Gaj and P. Kossacki. Anisotropic exchange interaction betwe<strong>en</strong> p-shellelectron and s-shell hole in CdTe/ZnTe quantum dots. Acta Physica Polonica A 116, 882 (2009).[49] W. Knafo, C. Meingast, A. V. Boris, P. Popovich, N. N. Kovaleva, P. Yordanov, A. Maljuk, R. K. Kremer, H. V. Lohneys<strong>en</strong> andB. Keimer. Ferromagnetism and lattice distortions in the perovskite YTiO 3 . Physical Review B 79, 054431 (2009).[50] W. Knafo, C. Meingast, S. Sakarya, N. H. van Dijk, Y. Huang, H. Rakoto, J. M. Broto and H. V. Lohneys<strong>en</strong>. Critical scalingof the magnetization and magnetostriction in the weak itinerant ferromagnet UIr. Journal of the Physical Society of Japan 78,043707 (2009).[51] W. Knafo, S. Raymond, P. Lejay and J. Flouquet. Antiferromagnetic criticality at a heavy-fermion quantum phase transition.Nature Physics 5, 753 (2009).[52] J. Kobak, M. Goryca, P. Kossacki, A. Golnik, G. Karczewski, T. Wojtowicz and J. Gaj. Magnetization dynamics of a (Cd, Mn)Tequantum well in pulsed magnetic field. Acta Physica Polonica A 116, 907 (2009).[53] Y. Kopelevich, B. Raquet, M. Goiran, W. Escoffier, R. R. da Silva, J. C. M. Pantoja, I. A. Luk’yanchuk, A. Sinch<strong>en</strong>ko andP. Monceau. Searching for the fractional quantum Hall effect in graphite. Physical Review Letters 103, 116802 (2009).[54] M. Koperski, T. Kazimierczuk, M. Goryca, P. Wojnar, A. Golnik, P. Kossacki and J. Gaj. Numerical rate equation approach topicosecond charge state dynamics in CdTe/ZnTe quantum dots. Acta Physica Polonica A 116, 893 (2009).[55] G. Koutroulakis, J. M. D. Stewart, V. F. Mitrovic, M. Horvatic, C. Berthier, G. Lapertot and J. Flouquet. Field evolution ofcoexisting superconducting and magnetic orders in CeCoIn 5 . Phys. Rev. Lett. , in press (arXiv:0912.3548) (2010).[56] Y. I. Latyshev, A. P. Orlov, A. Y. Latyshev, A. M. Smolovich, P. Monceau and D. Vignolles. Rec<strong>en</strong>t experim<strong>en</strong>ts on interlayertunneling spectroscopy and transverse electric field effect in NbSe 3 . Physica B-Cond<strong>en</strong>sed Matter 404, 399 (2009).[57] J. Levallois, K. Behnia, J. Flouquet, P. Lejay and C. Proust. On the <strong>des</strong>truction of the hidd<strong>en</strong> order in URu 2 Si 2 by a strongmagnetic field. Euro Physics Letters 85, 27003 (2009).[58] F. Levy, I. Sheikin, C. Berthier, M. Horvatic and M. Takigawa. Reply to the Comm<strong>en</strong>t by S. E. Sebastian and N. Harrison. EuroPhysics Letters 85, 67008 (2009).[59] F. Levy, I. Sheikin, B. Gr<strong>en</strong>ier, C. Marc<strong>en</strong>at and A. Huxley. Coexist<strong>en</strong>ce and interplay of superconductivity and ferromagnetismin URhGe. Journal of Physics-Cond<strong>en</strong>sed Matter 21, 164211 (2009). 25th International Confer<strong>en</strong>ce on Low Temperature Physics(LT25), Amsterdam, NETHERLANDS, AUG 06-13, 2008.[60] O. Lipscombe, B. Vignolle, T. Perring, C. Frost and S. Hayd<strong>en</strong>. Emerg<strong>en</strong>ce of coher<strong>en</strong>t magnetic excitations in the high temperatureunderdoped La 2 − xSr x CuO 4 superconductor at low temperatures. Physical Review Letters 102, 167002 (2009).[61] G. P. Lousberg, J. Gagnard, E. Haanappel, X. Chaud, M. Ausloos, B. Vanderheyd<strong>en</strong> and P. Vanderbemd<strong>en</strong>. Pulsed field magnetizationof drilled high temperature superconductors: flux front propagation in the volume and on the surface. SuperconductorSci<strong>en</strong>ce and Technology 22, 125026 ((2009)).[62] T. T. A. Lumm<strong>en</strong>, C. Strohm, H. Rakoto, A. A. Nugroho and P. H. M. van Loosdrecht. High-field recovery of the undistortedtriangular lattice in the frustrated metamagnet CuFeO 2 . Physical Review B 80, 012406 (2009).[63] A. Malagoli, V. Braccini, M. Tropeano, M. Vignolo, C. Bernini, C. Fanciulli, G. Romano, M. Putti, C. Ferdeghini, E. Mossang,A. Polyanskii and D. C. Larbalestier. Effect of grain refinem<strong>en</strong>t on <strong>en</strong>hancing critical curr<strong>en</strong>t d<strong>en</strong>sity and upper critical field inundoped MgB 2 ex situ tapes. Journal of Applied Physics 104, 103908 (2008).[64] M. Matsuda, K. Ohoyama, S. Yoshii, H. Nojiri, P. Frings, F. D. andB. Vignolle, G. L. J. A. Rikk<strong>en</strong>, L.-P. Regnault, S.-H. Lee,H. Ueda, and Y. Ueda. Universal magnetic structure of the half-magnetization phase in Cr-based spinels. Physical Review Letters(2009). Accepted for publications.[65] C. Meingast, Q. Zhang, T. Wolf, F. Hardy, K. Grube, W. Knafo, P. Adelmann, P. Schweiss and H. von Lohneys<strong>en</strong>. Resistivity ofMn 1−x Fe x Si Single Crystals: Evid<strong>en</strong>ce for Quantum Critical Behavior. Properties and Applications of Thermoelectric Materials261 (2009).[66] M. Millot, S. George, J. M. Broto, B. Couzinet, J. C. Chervin, A. Polian, C. Power and J. Gonzalez. New diamond anvil cell foroptical and transport measurem<strong>en</strong>ts under high magnetic fields up to 60T. High Pressure Research 28, 627 (2008).[67] M. Millot, S. Gilliland, J. M. Broto, J. Gonzalez, J. Leotin, A. Chevy and A. Segura. High pressure and high magnetic fieldbehaviour of free and donor-bound-exciton photoluminesc<strong>en</strong>ce in InSe. Physica Status Solidi B-Basic Solid State Physics 246,532 (2009).[68] M. Nannini, H. Cloez, S. Girard, C. Roux, J. P. Serries, M. T<strong>en</strong>a, L. Zani and E. Mossang. Characterization of industrial NbTistrands at variable field for JT-60SA toroidal field coils. Fusion Engineering and Design 84, 1404 (2009). 25th Symposium onFusion Technology, Rostock, GERMANY, SEP 15-19, 2008.[69] S. Nanot, R. Avriller, W. Escoffier, J.-M. Broto, S. Roche and B. Raquet. Propagative landau states and fermi level pinning incarbon nanotubes. Physical Review Letters 103, 256801 (2009).[70] S. Nanot, W. Escoffier, B. Lassagne, J. M. Broto and B. Raquet. Exploring the electronic band structure of individual carbonnanotubes under 60 T. Comptes R<strong>en</strong>dus Physique 10, 268 (2009).[71] P. Neugebauer and A. Barra. New cavity <strong>des</strong>ign for broad-band quasi-optical HF-EPR spectroscopy. Appl. Magn. Reson. 37, 833(2009).[72] P. Neugebauer, M. Orlita, C. Faugeras, A. L. Barra and M. Potemski. How perfect can graph<strong>en</strong>e be? Physical Review Letters103, 136403 (2009).[73] A. Nish, R. J. Nicholas, C. Faugeras, Z. Bao and M. Potemski. High-field magnetooptical behavior of polymer-embedded singlewalledcarbon nanotubes. Physical Review B 78, 245413 (2008).[74] A. Nogaret, J.-C. Portal, H. E. Beere, D. A. Ritchie and C. Phillips. Quantum interfer<strong>en</strong>ce of magnetic edge channels activatedby intersubband optical transitions in magnetically confined quantum wires. Journal of Physics-Cond<strong>en</strong>sed Matter 21, 025303(2009).144
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LABORATOIRE NATIONAL DES CHAMPS MAG
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TABLE OF CONTENTSPreface 1Carbon Al
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Coexistence of closed orbit and qua
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2009PrefaceDear Reader,You have bef
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2009 CARBON ALLOTROPESInvestigation
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2009 CARBON ALLOTROPESPropagative L
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2009 CARBON ALLOTROPESEdge fingerpr
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2009 CARBON ALLOTROPESObservation o
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2009 CARBON ALLOTROPESImproving gra
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2009 CARBON ALLOTROPESHow perfect c
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2009 CARBON ALLOTROPESTuning the el
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2009 CARBON ALLOTROPESElectric fiel
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2009 CARBON ALLOTROPESMagnetotransp
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2009 CARBON ALLOTROPESGraphite from
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2009Two-Dimensional Electron Gas25
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TWO-DIMENSIONAL ELECTRON GAS 2009Di
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TWO-DIMENSIONAL ELECTRON GAS 2009Sp
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TWO-DIMENSIONAL ELECTRON GAS 2009Cr
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TWO-DIMENSIONAL ELECTRON GAS 2009Re
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TWO-DIMENSIONAL ELECTRON GAS 2009In
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TWO-DIMENSIONAL ELECTRON GAS 2009Ho
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TWO-DIMENSIONAL ELECTRON GAS 2009Te
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2009 SEMICONDUCTORS AND NANOSTRUCTU
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2009 SEMICONDUCTORS AND NANOSTRUCTU
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2009 SEMICONDUCTORS AND NANOSTRUCTU
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2009 SEMICONDUCTORS AND NANOSTRUCTU
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2009Metals, Superconductors and Str
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METALS, SUPERCONDUCTORS... 2009Anom
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2009 MAGNETIC SYSTEMSY b 3+ → Er
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2009 MAGNETIC SYSTEMSMagnetotranspo
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2009 MAGNETIC SYSTEMSHigh field tor
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2009 MAGNETIC SYSTEMSNuclear magnet
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2009 MAGNETIC SYSTEMSStructural ana
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2009 MAGNETIC SYSTEMSEnhancement ma
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2009 MAGNETIC SYSTEMSInvestigation
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2009 MAGNETIC SYSTEMSField-induced
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