Damien PRÊLE - AstroParticule et Cosmologie
Transcription
Damien PRÊLE - AstroParticule et Cosmologie
Damien PRÊLE 38 (05/01/1977) Married, 3 children APC, 10 rue A. Domon et L. Duquet, 75013 Paris (+33) (0)1 57 27 61 78 [email protected] Employment, APC-CNRS Microelectronic engineer / Instrumentalist for cryogenic applications APC - AstroParticule & Cosmologie laboratory since 2007 Employment, Paris Diderot University Teacher at USTH (University of Science and Technology of Hanoi) Teacher/coordinator of the elec./auto. module of the Master of Space and Application since 2012 Teacher at EIDD (Ecole d’Ingénieurs Denis-Diderot) Electronic noise (lecture) since 2011 Employment, UPMC/Paris 6 University ATER at Polytech Paris-UPMC Electronic and CAD with Cadence 2006 - 2007 Teaching assistant at IFITEP Electronic, C Programming 2003 - 2006 (Institut de Formation d’Ingénieurs en Tech. Elec. de Paris) Education Ph.D. in cryogenic instrumentation, UPMC/Paris 6 University Instrumentation cryogénique bas bruit et large bande en technologie SiGe 2006 Master of Science in electronic, UPMC/Paris 6 University SSI - Signaux Systèmes Images 2003 Bachelor of Science in electronic, UPMC/Paris 6 University EEA - Electronique Electrotechnique Automatique 2001 Skills and training Astrophysics, cosmology & gravitation (FUN) Project management (CNRS) Spacecraft techniques and technology (CNES) Full custom integrated circuit design (Cadence IC CAD) Research interests Superconducting sensors : SQUID, TES, KID Micro-electronic, electronic noise, multiplexing, feedback, control system SiPM and Geiger mode avalanche photodiodes (SPAD) 2015 2013 2011 2009 Projects Involved in development of the readout chaine of superconducting bolometers (TES) : XIFU inst. of the Athena ESA space mission in the X ray range QUBIC ground based telescope (Antarctica) in the mm range Also involved NbSi TES arrays, Kinetic Inductance Detectors (KID) and single-photon avalanche diode arrays developments Some of the Damien Prêle scientific publications D. Prêle et al., Journal of Low Temperature Physics, submitted A 128 multiplexing rate Time Domain SQUID Multiplexer 2015 D. Prêle et al., IEEE Trans. on Applied Superconductivity, submitted Operating Point and Flux Jumps of a SQUID in Flux Locked Loop 2015 D. Prêle, JINST, doi:10.1088/1748-0221/10/08/C08015 2015 Front-end multiplexing applied to SQUID multiplexing: Athena X-IFU and QUBIC experiments D. Pellion, K. Jradi, N. Brochard, D. Prêle, D. Ginhac, NIMA , Vol. 787, pp. Single-Photon Avalanche Diodes (SPAD) in CMOS 0.35 m technology D. Prêle et al., Journal of Low Temperature Physics, Vol. 176, 3-4, pp. Capacitively-coupled SQUID Bias for Time Division Multiplexing 2015 380 - 385 2014 433 - 438 A. Tartari, B. Bélier, M. Calvo, D. Cammilleri, A. Monfardini, M. Piat, D. Prêle, G.F. Smoot, Journal of Low Temperature Physics, Vol. 176, 3-4, pp. 524 - 529 2014 A mm-wave polarization analyser using LEKIDs: Strategy and preliminary numerical results D. Prêle et al., Journal of Low Temperature Physics, Vol. 167, n5-6, pp 726-731 Cryogenic Integrated Offset Compensation for Time Domain SQUID Multiplexing 2012 D. Prêle et al., IEEE Trans. on Applied Superconductivity, Vol. Non-Dissipative Addressing for Time Division SQUID Multiplexing 2011 21, 6, pp. 3652 - 3654 F. Pajot, D. Prêle, J. Zhong, Y. Atik, B. Bélier, L. Bergé, G. Bordier, E. Bréelle, L. Dumoulin, C. Evesque, F. Gadot, B. Leriche, S. Marnieros, J. Martino, M. Piat, S.C. Shi, F. Voisin, IEEE Trans. on Applied Superconductivity, Vol. 21, 6, pp. 3652 - 3654 2010 NbSi TES Array and Readout: Development and Characterization D. Prêle et al., American Institute of Physics, Vol. 1185, B. Cabrera, A. Miller, and B. Young (ed) 2009 SiGe Integrated Circuit/SQUID Hybrid Cryogenic Multiplexing for Superconducting Bolometer Array D. Prêle et al., European Astronomical Society, EAS Publications Series, P. Kern (ed), Vol. Cryogenic SiGe ASIC for SQUID multiplexing 37 2009 D. Prêle et al., IEEE Trans. on Applied Superconductivity, Vol. 19 - Nb. 3 - pp. 501-504 2009 Development of Superconducting NbSi TES Array and Associated Readout with SQUIDs and Integrated Circuit Operating at 2 K D. Prêle et al., Nuclear Instruments & Methods in Physics Research, A, 578, pp. 439-441 2007 Very Low Noise Multiplexing with SQUID and SiGe HBTs For Readout of Large Superconducting Bolometer Arrays