Taylor Clark Lilly - College of Engineering and Applied Science

CURRICULUM VITAETaylor Clark LillyMechanical and Aerospace Engineering Dept.University of Colorado Colorado Springs1420 Austin Bluffs Parkway, OCSE A444Colorado Springs, CO 80918Office: +1 (719) 255-3430Fax: +1 (719) 255-3042Cell: +1 (951) 283-0960Email: tlilly@uccs.eduEducation:Air Force Research Laboratory (AFRL), Edwards AFB, CAPost-Doctoral Research Assoc. National Research Council Aug. 2011University of Southern California (USC), Los Angeles, CADoctor of Philosophy Aerospace Engineering Aug. 2010Thesis: Laser Manipulation of Atomic and Molecular FlowsGraduate Certificate Astronautical Engineering May 2009Master of Science Aerospace Engineering Dec. 2006Bachelor of Science Aerospace Engineering May 2005Professional Experience:2012-Present: Managing Director, Center for Laser, Energy, and Exploration Research(CLEER), University of Colorado Colorado Springs (UCCS), Colorado Springs, COChief Financial Officer of the Center. Duties include: managing of revenue from grants, sponsors,solicitations, and events; monitoring expenditures; managing consultants and volunteers to the Center;organizing institutional and other reviews of the Center; and communicating with other UCCS departments,agencies, and governmental entities and institutional partners as necessary.2011-Present: Assistant Professor, Dept. of Mechanical and Aerospace Engineering (MAE),UCCS, Colorado Springs, COResearch interests and academic duties in the fields of Mechanical and Aerospace Engineering with anemphasis on the incorporation of undergraduate involvement and learning opportunities to enhance fundedresearch. Faculty leader of the High Energy Laser Laboratory, a constituent of the CLEER.2010-2011: National Research Council Research Associate, Air Force Research Laboratory -Propulsion Directorate (AFRL/RZSA), Edwards AFB, CADevelopment of laser-based flow manipulation and diagnostic capabilities for high temperature nonequilibriumgas research pertinent to hypersonics, gas-surface interactions, collision and chemical rate data,and enhanced numerical modeling. Research conducted in collaboration with the MAE Dept. at UCCS.2008-2010: Senior Professional Research Assistant, MAE, UCCS, Colorado Springs, CODevelopment of gas-laser interaction experiments and numerical simulations associated with lasermanipulation of atomic and molecular flows. Worked as collaborative researcher at the U. S. Air ForceAcademy’s Laser and Optics Research Center (LORC).2003-2011: Consultant & 2005-2010: Co-Op Researcher, ERC Inc., Edwards AFB, CACo-Op Researcher: Manager for the Exploration and Space Technology (EaST) Lab. at USC, later atUCCS. Supervisor and technical resource for up to 12 member team, comprised of undergraduates,graduate students, and professional research collaborators. Projects include a variety of basic research,advanced propulsion concepts, and test and diagnostic experiments for AFRL/RZSA.Consultant: Maintenance and upgrades pertaining to the high vacuum facilities and test equipment at theCollaborative High Altitude Flow Facility (CHAFF) at USC. Lead for installation of cryogenic gaseoushelium pumping system in the facility’s 10’ Ø by 20’ L high vacuum chamber CHAFF-IV. Continued

development of the nano-Newton Thrust Stand, capable of ultra-low magnitude force measurements.Ongoing consultation in numerical simulation of laser influenced gas flows.2002-2008: Undergraduate/Graduate Research Assistant, Dept. of Aerospace & MechanicalEngineering (AME), USC, Los Angeles, CARarefied gas dynamic research including: free-molecule and transitional flow physics applicable to satellitepropulsion and health. Small-scale satellite propulsion research including: cold gas thrusters, resistojets,ion propulsion, hybrid rocket motors, flight hardware, and advanced concepts. Continued development oftest techniques, uniquely capable of low magnitude, low signal-to-noise measurements required by smallscale flow physics and satellite propulsion experiments.Academic/Administrative Positions:2012-Present: Managing Director, CLEER, UCCS2011-Present: Assistant Professor, MAE, UCCS2010-2011: Assistant Professor Adjoint, MAE, UCCS2009-2010: Lecturer, MAE, UCCSResearch Experience & InterestsLaser-Gas InteractionsDevelopment of laser-based flow manipulation and diagnostic capabilities (experimental and numerical) forhigh temperature non-equilibrium gas research pertinent to hypersonics, gas-surface interactions, collisionand chemical rate data, and enhanced numerical modeling.Rarefied Gas DynamicsFree-molecule and transitional flow physics, gas-surface interactions, and flow through orifices, shorttubes, and nozzles. Development of test techniques, uniquely capable of low magnitude, low signal-tonoisemeasurements required by small scale flow physics.Space Environment SimulationDevelopment of laboratory environments suitable for spacecraft interaction and space environmentsimulation experiments, including familiarity with: high vacuum, ion sources, electron guns, cold shroudsand cryogenic pumps, solar emulating lamps, and diagnostics hardware.Small Satellite PropulsionCold gas thrusters, resistojets, ion propulsion, hybrid rocket motors, flight hardware, and advancedconcepts. Development of test techniques, uniquely capable of low magnitude, low signal-to-noisemeasurements required satellite propulsion experiments.Career Development Actions:2013 & 2014 Space Symposium, Colorado Springs, COThis event brings together space leaders from around the world to discuss, address and dream about thefuture of space. The Space Symposium has become widely known as the premier U.S. space policy andprogram forum and as an opportunity for information on and interaction among all sectors of space.2012 NSF CAREER Proposal Writing Workshop (March 26-27, 2012)The workshop mainly aims to provide future NSF Faculty Early Career Development (CAREER) proposalsubmitters with proposal review experience and interactions with NSF program directors and recent NSFCAREER awardees.2012 NSF Career Development Workshop for New Faculty (March 23, 2012)This workshop is intended to encourage faculty to identify suitable career goals and to specify objectivesand begin to develop a plan for achieving them. The components of the CAREER program will be used asa model for developing a plan. In addition, special attention will be devoted to establishing a fundedresearch program.Page 2 of 12

UCCS Courses – Lead Instructor:MAE 4410: Fundamentals of Astrodynamics (2011-Present)MAE 4425/5091: Space Environments (2011-Present)MAE 5410: Astrodynamics (2012-Present)UCCS Courses Taught:MAE 1502: Principles of Engineering (2013-Sp.)Introduces the field of engineering. Explores various technology systems and manufacturing processes todemonstrate how engineers use math, science and technology in an engineering problem solving process.The course also includes an examination of social and political implications of technology.MAE 1503: Introduction to Engineering Design (2014-Sp.)Problem-solving skills using a design development process. Models of product solutions are created,analyzed and communicated using computer-aided design software, including 2D orthographic projectionsand 3D isometric views, pictorial drawings, technical sketching, dimensioning, sectioning, workingdrawings, wireframe, and solid modeling.MAE 4410: Fundamentals of Astrodynamics (2009-Sp., 2010-Sp., 2012-Sp., 2013-Sp.)Development and application of the fundamental principles of astrodynamics. Study of coordinate systems,time keeping, computation of orbits, orbit determination and propagation, and introduction to spacecraftsystems and perturbation.MAE 4425/5091: Space Environments (2011-Fa., 2013-Fa.)Introduction to properties and effects of the environment in which spacecraft and astronauts must operate.Intensive coverage given to earth-sun-lunar system. Topics include earth's environment, ionosphere,atmospheric chemistry, radiation belts, magnetosphere, aurora, geomagnetic storms, celestial backgroundand bioastronautic effects.MAE 5391: Rocket Propulsion (2014-Sp.)Basic theory of rocket propulsion, nozzle performance, propellant characteristics. Primary emphasis on theengine system design process, based on mission requirements. Chemical, as well as nuclear, electric, andadvanced propulsion concepts are treated.MAE 5410: Astrodynamics (2012-Fa., 2013-Fa.)Rigorous development and application of the fundamental principles of astrodynamics to satellite motion.Study of coordinate systems, time keeping, computation of orbits, introduction to perturbation theory,Kepler’s and Lambert’s problems, linear orbit theory, patched conics method.SPCE 5065/5069 - Spacecraft Environmental Interactions (2012-Su., 2013-Su)Introduction to the properties and effects of the environment in which spacecraft and astronauts mustoperate. Intensive coverage is given to the earth-sun-lunar system. Topics include: earth’s environmentionosphere, atmospheric chemistry, radiation belts, magnetosphere, aurora, geomagnetic storms, celestialbackground, and bio-astronautic effects. Prer., Graduate students only.Honors and Awards:• American Institute of Aeronautics and Astronautics, National – 2013o Special Service Citation• American Institute of Aeronautics and Astronautics, Rocky Mountain Section – 2011o Young Engineer of the Year• National Research Council, Postdoctoral Research Associateship – 2010o Proposal: “Direct Acceleration of Atoms via Counter-Propagating Lasers”• USC Undergraduate Research Symposium for Creative and Scholarly Work – 2004o First Place: Physical Sciences, Mathematics & EngineeringPage 3 of 12

Advisory Positions:• 2013-Present: U. S. Space Command Astrodynamics Innovation Committeeo Peer Review Working Group• 2012-Present: National Museum of World War II Aviationo Educational Program Advisory Board• 2013-Present: American Institute of Aeronautics and Astronauticso Southern Vice-Chair, Rocky Mountain Section• 2011-2013: American Institute of Aeronautics and Astronauticso Young Professional Chair, Rocky Mountain SectionReviewer (Proposal / Publication):Aerospace Science and Technology (Publication)Heat Transfer Engineering (Publication)International Journal of Heat & Mass Transfer (Publication)International Symposium on Rarefied Gas Dynamics (Publication)Journal of Applied Physics (Publication)Journal of Heat Transfer (Publication)Journal of Nanoscience and Nanotechnology (Publication)Journal of Propulsion and Power (Publication)Journal of Spacecraft and Rockets (Publication)Journal of Thermophysics and Heat Transfer (Publication)Journal of Vacuum Science and Technology A (Publication)NASA: Game Changing Opportunities in Technology Development (Proposal)Optics Letters (Publication)Vacuum (Publication)Dissertations and Theses Advised: [1-5][1] T. M. Siefers, "Flow and Vibration Analysis of Parachute Suspension Line," Master ofScience Master's Thesis, Mechanical and Aerospace Engineering, University of ColoradoColorado Springs, Colorado Springs, CO, USA, 2013.[2] B. M. Cornella, "Neutral Gas Heating via Non-Resonant Optical Lattices," Doctor ofPhilosophy Ph.D. Dissertation, Mechanical and Aerospace Engineering, University ofColorado Colorado Springs, Colorado Springs, CO, USA, 2012.[3] J. S. Graul, "Development and Characterization of a Bidirectional Optical MultipassCavity for Counterpropagating High Energy Pulsed Laser Applications," Master ofScience Master's Thesis, Mechanical and Aerospace Engineering, University of ColoradoColorado Springs, Colorado Springs, CO, USA, 2012.[4] C. A. Maldonado, "Characterization of Charged Particle Sources Suitable for theSimulation of the Low Earth Orbit Plasma Environment," Master of Science Master'sThesis, Mechanical and Aerospace Engineering, University of Colorado ColoradoSprings, Colorado Springs, CO, USA, 2012.Page 4 of 12

[5] T. C. Lilly, "Laser Manipulation of Atomic and Molecular Flows," Doctor of PhilosophyPh.D. Dissertation, Aerospace and Mechanical Engineering, University of SouthernCalifornia, Los Angeles, CA, USA, 2010.Archival Publications: [1-17][1] J. S. Graul, S. F. Gimelshein, and T. C. Lilly, "Numerical prediction of optical latticeinducedgas heating within multipass optical cavities," Applied Physics B, pp. 1-9,2014/05/05 2014.[2] N. Gimelshein, S. Gimelshein, T. Lilly, and E. Moskovets, "Numerical Modeling of IonTransport in an ESI-MS System," Journal of The American Society for MassSpectrometry, vol. 25, pp. 820-831, 2014/05/01 2014.[3] B. M. Cornella, S. F. Gimelshein, T. C. Lilly, and A. D. Ketsdever, "Neutral gas heatingvia non-resonant optical lattices," Applied Physics Letters, vol. 103, p. 194103, 2013.[4] J. S. Graul, B. M. Cornella, A. D. Ketsdever, T. C. Lilly, and M. N. Shneider,"Experimentally observed field–gas interaction in intense optical lattices," AppliedPhysics Letters, vol. 103, p. 244106, 2013.[5] B. M. Cornella, S. F. Gimelshein, T. C. Lilly, and A. D. Ketsdever, "Narrowbandcoherent Rayleigh-Brillouin scattering from gases confined by a high-intensity opticallattice," Physical Review A, vol. 87, p. 033825, March 22 2013.[6] J. S. Graul, A. D. Ketsdever, G. P. Andersen, and T. C. Lilly, "Note: External multipassoptical trap for counterpropagating pulsed laser applications," Review of ScientificInstruments, vol. 84, pp. 076102-3, 07/00/ 2013.[7] J. F. Sell, M. A. Gearba, B. M. Patterson, D. Byrne, G. Jemo, T. C. Lilly, R. Meeter, andR. J. Knize, "Collisional excitation transfer between Rb(5P) states in 50–3000 Torr of 4He," Journal of Physics B: Atomic, Molecular and Optical Physics, vol. 45, p. 055202,2012.[8] B. M. Cornella, S. F. Gimelshein, M. N. Shneider, T. C. Lilly, and A. D. Ketsdever,"Experimental and numerical analysis of narrowband coherent Rayleigh-Brillouinscattering in atomic and molecular species," Optics Express, vol. 20, pp. 12975-12986,2012.[9] T. C. Lilly, "Simulated nonresonant pulsed laser manipulation of a nitrogen flow,"Applied Physics B, vol. 104, pp. 961-968, 2011.[10] T. Lilly, A. Ketsdever, B. Cornella, T. Quiller, and S. Gimelshein, "Gas densityperturbations induced by a pulsed optical lattice," Applied Physics Letters, vol. 99, p.124101, 2011.Page 5 of 12

[11] T. C. Lilly, A. D. Ketsdever, A. P. Pancotti, and M. Young, "Development of a SpecificImpulse Balance for Capillary Discharge Pulsed Plasma Thrusters," Journal ofPropulsion and Power, vol. 25, pp. 823-826, May 2009.[12] R. H. Lee, A. M. Bauer, M. D. Killingsworth, T. C. Lilly, J. A. Duncan, and A. D.Ketsdever, "Free-Molecule-Microresistojet Performance Using Water Propellant forNanosatellite Applications," Journal of Spacecraft and Rockets, vol. 45, pp. 264-269,2008.[13] J. D. Olliges, T. C. Lilly, T. B. Joslyn, and A. D. Ketsdever, "Time accurate mass flowmeasurements of solid-fueled systems," Review of Scientific Instruments, vol. 79, p.101301, October 7 2008.[14] T. C. Lilly, J. A. Duncan, S. L. Nothnagel, S. F. Gimelshein, N. E. Gimelshein, A. D.Ketsdever, and I. J. Wysong, "Numerical and experimental investigation of microchannelflows with rough surfaces," Physics of Fluids, vol. 19, p. 106101, October 4 2007.[15] C. Ngalande, T. Lilly, M. Killingsworth, S. Gimelshein, and A. Ketsdever, "NozzlePlume Impingement on Spacecraft Surfaces: Effects of Surface Roughness," Journal ofSpacecraft and Rockets, vol. 43, pp. 1013-1018, 2006.[16] T. C. Lilly, S. F. Gimelshein, A. D. Ketsdever, and G. N. Markelov, "Measurements andcomputations of mass flow and momentum flux through short tubes in rarefied flow,"Physics of Fluids, vol. 18, p. 093601, September 8 2006.[17] A. D. Ketsdever, R. H. Lee, and T. C. Lilly, "Performance testing of a microfabricatedpropulsion system for nanosatellite applications," Journal of Micromechanics andMicroengineering, vol. 15, pp. 2254-2263, October 28 2005.Refereed Archival Proceedings: [1-8][1] B. M. Cornella, S. F. Gimelshein, T. C. Lilly, and A. D. Ketsdever, "Coherent Rayleigh-Brillouin Scattering in High Intensity Laser Fields," in 28th International Symposium onRarefied Gas Dynamics, Zaragoza, Aragon, Spain, 2012.[2] T. C. Lilly, B. M. Cornella, S. F. Gimelshein, and A. D. Ketsdever, "On the VelocityDistribution of Molecular Species in Pulsed Optical Lattices," in 28th InternationalSymposium on Rarefied Gas Dynamics, Zaragoza, Aragon, Spain, 2012.[3] C. A. Maldonado, T. C. Lilly, and A. D. Ketsdever, "The Development of a CombinedEffects Space Simulation Facility," in 28th International Symposium on Rarefied GasDynamics, Zaragoza, Aragon, Spain, 2012.[4] T. C. Lilly, A. D. Ketsdever, and S. F. Gimelshein, "Resonant Laser Manipulation of anAtomic Beam," in 27th International Symposium on Rarefied Gas Dynamics, PacificGrove, California, USA, 2010, pp. 825-830.Page 6 of 12

[5] T. C. Lilly, S. F. Gimelshein, A. D. Ketsdever, and M. N. Shneider, "Energy Depositioninto a Collisional Gas from Optical Lattices Formed in an Optical Cavity," in 26thInternational Symposium on Rarefied Gas Dynamics, Kyoto, Japan, 2008, pp. 533-538.[6] N. Gimelshein, J. Duncan, T. Lilly, S. Gimelshein, A. Ketsdever, and I. Wysong,"Surface Roughness Effects in Low Reynolds Number Channel Flows," in 25thInternational Symposium on Rarefied Gas Dynamics, St. Petersburg, Russia, 2006, pp.695-702.[7] S. F. Gimelshein, G. N. Markelov, T. C. Lilly, N. P. Selden, and A. D. Ketsdever,"Experimental and numerical modeling of rarefied gas flows through orifices and shorttubes," in 24th International Symposium on Rarefied Gas Dynamics, Bari, Italy, 2004,pp. 437-443.[8] A. D. Ketsdever, T. C. Lilly, S. F. Gimelshein, and A. A. Alexeekno, "Experimental andNumerical Study of Nozzle Plume Impingement on Spacecraft Surfaces," in 24thInternational Symposium on Rarefied Gas Dynamics, Bari, Italy, 2004, pp. 367-372.Conferences: [1-33][1] S. Gimelshein, E. Moskovets, B. Oktem, R. Webb, and T. Lilly, "Continuum/KineticApproach for Ion Transport Modeling in Atmospheric and Intermediate PressureInterfaces of the ESI/MS Systems," presented at the Conference on Mass Spectrometryand Allied Topics, Baltimore City, Maryland, USA, 2014.[2] S. Gimelshein, E. Moskovets, R. Webb, and T. Lilly, "The Importance of Tool Choice forNumerical Analysis of Ion Transport in Mass Spectrometers Spanning Multiple GasDynamic Regimes," presented at the Conference on Mass Spectrometry and AlliedTopics, Baltimore City, Maryland, USA, 2014.[3] S. Gimelshein, E. Moskovets, R. Webb, and T. Lilly, "First-Principle Transport Modelingof Protonated Peptides and Water Clusters in Ion Funnels and Nozzle-SkimmerInterfaces," presented at the Conference on Mass Spectrometry and Allied Topics,Baltimore City, Maryland, USA, 2014.[4] J. Graul and T. Lilly, "Optical Lattice Gas Heating Numerical Simulation and Detection,"presented at the Mountain Lion Research Day, Colorado Springs, CO, USA, 2014.[5] J. Graul and T. Lilly, "Gas Flow Diagnostic and Modification at the CLEER High EnergyLaser Lab," presented at the AIAA-RM Annual Technical Symposium, ColoradoSprings, CO, USA, 2013.[6] C. A. Maldonado, A. D. Ketsdever, T. C. Lilly, L. Rand, K. Xie, C. Farnell, and J.Williams, "Source Characterization for a Combined Effects Space Simulation Facility,"presented at the AIAA Aerospace Sciences Meeting and Exhibit, Grapevine, Texas,USA, 2013.Page 7 of 12

[7] T. Lilly, "Lasers, gases, and some particular cases of simulating their interaction,"presented at the KIT: Numerical Methods and Problems in Kinetic Simulation ofCollisional Plasmas, Northridge, CA, USA, 2013.[8] N. Fadely and T. Lilly, "Code for Large Array Statistical Simulation Using DSMC,"presented at the Mountain Lion Research Day, Colorado Springs, CO, USA, 2013.[9] J. Graul and T. Lilly, "Temperature Diagnostic Technique for Optical Lattice Neutral GasHeating," presented at the Mountain Lion Research Day, Colorado Springs, CO, USA,2013.[10] B. Cornella, S. Gimelshein, T. Lilly, and A. Ketsdever, "Neutral Gas Heating via PulsedOptical Lattices," presented at the AIAA-RM Annual Technical Symposium, Denver,CO, USA, 2012.[11] J. Graul, T. Lilly, and A. Ketsdever, "Development and Characterization of aBidirectional Optical Multipass Cavity for Counter-propagating High Energy PulsedLaser Applications," presented at the AIAA-RM Annual Technical Symposium, Denver,CO, USA, 2012.[12] C. A. Maldonado, T. C. Lilly, and A. D. Ketsdever, "Development of a Space SimulationFacility to Study Combined Effects," presented at the AIAA Atmospheric and SpaceEnvironments Conference, New Orleans, Louisiana, USA, 2012.[13] M. R. Reid, R. N. Webb, and T. C. Lilly, "Computational evaluation of latent heat energystorage using a high temperature phase change material," presented at the ASMEInternational Conference on Energy Sustainability, San Diego, CO, USA, 2012.[14] B. Cornella, S. Gimelshein, T. Lilly, and A. Ketsdever, "Coherent Rayleigh-BrillouinScattering in High Intensity Laser Fields: Optical Lattice Gas Heating," presented at theMeeting of the APS Division of Atomic, Molecular and Optical Physics, Orange County,California, USA, 2012.[15] B. Cornella, T. Lilly, and A. Ketsdever, "Neutral Gas Heating via Pulsed OpticalLattices," presented at the Mountain Lion Research Day, Colorado Springs, CO, USA,2012.[16] L. Derby, T. Lilly, and A. Ketsdever, "Microwave Assisted Micropropulsion forCubeSat," presented at the Mountain Lion Research Day, Colorado Springs, CO, USA,2012.[17] J. Graul and T. Lilly, "External Multipass Optical Cavity for Increased Laser InteractionEfficiency," presented at the Mountain Lion Research Day, Colorado Springs, CO, USA,2012.[18] C. Maldonado, R. Bosworth, T. Lilly, and A. Ketsdever, "Chamber for Atmospheric andOrbital Space Simulation," presented at the Mountain Lion Research Day, ColoradoSprings, CO, USA, 2012.Page 8 of 12

[19] B. Cornella, T. Quiller, S. Gimelshein, T. Lilly, and A. Ketsdever, "Investigation ofDensity Perturbations in Molecular Nitrogen Formed by Pulsed Optical Lattices,"presented at the AIAA Thermophysics Conference, Honolulu, Hawaii, USA, 2011.[20] B. Cornella, T. Lilly, and A. Ketsdever, "Laser Manipulation of a Neutral Gas via OpticalLattices," presented at the Mountain Lion Research Day, Colorado Springs, CO, USA,2011.[21] T. Lilly, "Laser Manipulation of an Atomic Beam," presented at the Mountain LionResearch Day, Colorado Springs, CO, USA, 2010.[22] T. Lilly, "Microscale Energy Deposition and Molecular Manipulation using OpticalLattices," presented at the AIAA Thermophysics Conference, San Antonio, TX, USA,2009.[23] M. A. Gearba, M. K. Shaffer, T. C. Lilly, and R. J. Knize, "Direct Measurement of theCesium 6P32 Excited State Diffusion Coefficients in Helium Using Degenerate Four‐Wave Mixing Techniques," presented at the Meeting of the APS Division of Atomic,Molecular and Optical Physics, Charlottesville, Virginia, USA, 2009.[24] T. Lilly, S. Gimelshein, and M. Shneider, "Energy Deposition and Chemical Reactions inGases Stimulated by Interaction with Pulsed Optical Lattices," presented at the AIAAAerospace Sciences Meeting and Exhibit, Reno, Nevada, USA, 2008.[25] T. C. Lilly, A. P. Pancotti, A. D. Ketsdever, M. Young, and J. D. Duncan, "Developmentof a Specific Impulse Balance for a Pulsed Capillary Discharge," presented at theAIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, Hartford, Connecticut,USA, 2008.[26] R. H. Lee, B. C. D'Souza, T. C. Lilly, and A. D. Ketsdever, "Laser-Induced AblationProcesses Investigated Using Enhanced Impulse Measurement Techniques," presented atthe AIAA Plasmadynamics and Lasers Conference, Miami, Florida, USA, 2007.[27] R. H. Lee, A. M. Bauer, M. D. Killingsworth, T. C. Lilly, J. A. Duncan, and A. D.Ketsdever, "Performance Characterization of the Free Molecule Micro-ResistojetUtilizing Water Propellant," presented at the AIAA/ASME/SAE/ASEE Joint PropulsionConference & Exhibit, Cincinnati, Ohio, USA, 2007.[28] R. H. Lee, B. C. D'Souza, T. C. Lilly, and A. D. Ketsdever, "Thrust Stand Micro-MassBalance Diagnostic Techniques for the Direct Measurement of Specific Impulse,"presented at the AIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit,Cincinnati, Ohio, USA, 2007.[29] J. D. Olliges, M. D. Killingsworth, T. C. Lilly, and A. D. Ketsdever, "Thrust Stand MassBalance Measurements of Hybrid Motor Mass Flow," presented at theAIAA/ASME/SAE/ASEE Joint Propulsion Conference & Exhibit, Cincinnati, Ohio,USA, 2007.Page 9 of 12

[30] C. Ngalande, M. Killingsworth, T. Lilly, S. Gimelshein, and A. Ketsdever, "NozzlePlume Impingement on Spacecraft Surfaces Effects of Surface Roughness," presented atthe AIAA Thermophysics Conference, Toronto, Ontario, Canada, 2005.[31] R. H. Lee, T. C. Lilly, E. P. Muntz, and A. D. Ketsdever, "Free Molecule micro-Resistojet Nanosatellite Propulsion," presented at the AIAA/ASME/SAE/ASEE JointPropulsion Conference & Exhibit, Tucson, Arizona, USA, 2005.[32] A. P. Pancotti, T. C. Lilly, A. D. Ketsdever, V. Aguero, and P. R. Schwoebel,"Development of a Thrust Stand Micro-Balance to Assess MicropropulsionPerformance," presented at the AIAA/ASME/SAE/ASEE Joint Propulsion Conference &Exhibit, Tucson, Arizona, USA, 2005.[33] T. C. Lilly, N. P. Selden, S. F. Gimelshein, A. D. Ketsdever, and G. N. Markelov,"Numerical and Experimental Study of Low Reynolds Number Flow Through Thin-Walled Orifice and Short Circular Tube," presented at the AIAA ThermophysicsConference, Portland, Oregon, USA, 2004.Invited Presentations: [1-6][1] C. Maldonado, T. Lilly, and A. Ketsdever, "Source Characterization for a CombinedEffects Space Simulation Facility (ChAOSS)," presented at the Mechanical & AerospaceEngineering Department Research Seminar Series, Colorado Springs, CO, USA, 2013.[2] C. Maldonado, T. Lilly, and A. Ketsdever, "Development of the Chamber forAtmospheric and Orbital Space Simulation (ChAOSS)," presented at the AerospaceEngineering Department Research Seminar Series, Boulder, CO, USA, 2012.[3] T. Lilly, "Experimental Use of Lasers in Aerospace Diagnostic Applications," presentedat the Mechanical & Aerospace Engineering Department Research Seminar Series,Colorado Springs, CO, USA, 2012.[4] C. Maldonado, R. Bosworth, T. Lilly, and A. Ketsdever, "Development of the Chamberfor Atmospheric and Orbital Space Simulation (ChAOSS)," presented at the Mechanical& Aerospace Engineering Department Research Seminar Series, Colorado Springs, CO,USA, 2012.[5] T. Quiller and T. Lilly, "Investigation of Density Perturbations in Molecular NitrogenFormed by Pulsed Optical Lattices," presented at the Mechanical & AerospaceEngineering Department Research Seminar Series, Colorado Springs, CO, USA, 2011.[6] T. Lilly, "Microscale Energy Deposition and Molecular Manipulation using OpticalLattices," presented at the AIAA Thermophysics Conference, San Antonio, TX, USA,2009.Page 10 of 12

Funded Proposals: [14]1. PI: Undergraduate Aerodynamic Computational Modeling. Submitted to UCCS URS,April 2014, $2,5002. PI: Comprehensive Computational Toolbox for Atmospheric Interface MassSpectrometers. Submitted to UCCS BioFrontiers, April 2014, $25,0003. PI: Methodology and Phenomenological Simulation Considerations for Multi-Application Gas Kinetic Modeling. Submitted to NSF XSEDE, October 2013,$2,000,000 (2,000,000 Processor Hours)4. PI: Numerical Gas Kinetic Simulation for Experimental Validation of Laser-GasInteractions within High Intensity Optical Lattices. Submitted to NSF XSEDE, October2012, $175,000 (175,000 Processor Hours)5. PI: Numerical Simulation of Laser-Gas Interactions within High Intensity OpticalLattices. Submitted to NSF XSEDE, September 2012, $100,000 (100,000 ProcessorHours)6. PI: Assembly and Characterization of Space Environment Facility. Submitted to UCCSURS, April 2012, $1,9207. PI: High energy laser pulses for detailed low density gas flow analysis. Submitted toUCCS CRCW, March 2012, $7,2008. Co-PI: Exploration Technology: Research in Basic and Advanced Concepts. Submittedto ERC Inc., October 2011, $1,374,0569. PI: Pulse Optical Cavity Proof-of-Concept. Submitted to ERC Inc., August 2011, for$5,50010. Co-PI: Computational Modeling of a High Energy Advanced Thermal Storage System.Submitted to ERC Inc., July 2011, for $16,50011. PI: Mission Identification for Momentum Exchange Formation Spacecraft Flying.Submitted to UCCS URS, April 2011, for $1,92012. Collaborator: Experimental Laser-Induced Bubble Formation and Analysis. Submitted toUCCS CRCW, March 2011, for $7,50013. PI: Direct Acceleration of Atoms via Counter-Propagating Lasers. Submitted to NRC,February 2010, for $77,00014. Collaborator: Advanced Nano-Machining Using Laser Acceleration of Neutral Atoms.Submitted to UCCS CRCW, March 2009, $7,500Page 11 of 12

Organizations and Societies:Aircraft Owners and Pilots Association: AOPA Member, 2002-PresentAmerican Society for Engineering Education: ASEE Member, 2012-PresentAmerican Institute of Aeronautics and Astronautics:AIAA Lifetime Member, 2005-PresentRocky Mountain Section, Southern Vice-Chair 2013-PresentRocky Mountain Section, Young Professional Chair, 2011-2013American Physical Society: APS Member, 2012-PresentAmerican Vacuum Society: AVS Member, 2009-PresentKnights of Columbus: 4 th Degree, 2001-PresentProfessional Association of Dive Instructors: PADI Member, 2007-PresentPage 12 of 12