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I obtained my PhD degree in physics from University Paris-Sud in 2007. During my PhD – jointly with LPN/Marcoussis - I developed electrically driven vertical cavity surface emitting lasers at telecom wavelengths. I joined the Institut d’Electronique Fondamentale, University of Paris-Sud, Orsay, France as a post-doctoral researcher. My research interests covers quantum cascade lasers employing plasmonic waveguides and the development of device concepts for coupling/generation of surface plasmons using semiconductor lasers.
Publications dans revues:
[14] D. Costantini, A. Bousseksou, D. Costantini, A. Bousseksou, M. Fevrier, B. Dagens, R. Colombelli, Loss and gain measurements of tensile-strained quantum well diode lasers for plasmonic devices at telecom wavelengths, IEEE Journal of Quantum Electronics, In Press.
[13] J. Teissier, S. Laurent,. C. Manquest, C. Sirtori, A. Bousseksou, J.R. Coudevylle, R.Colombelli, G.Beaudoin O. Mauguin L. Largeau G. Patriarche I.Sagnes, Electrical Modulation of effective refractive index of Mid Infrared Quantum Cascade lasers, Optics Express, In Press.
[12] A. Bousseksou, A. Babuty, J-P. Tetienne, I. Moldovan-Doyen, G. Beaudoin, I. Sagnes, Y. De Wilde, R. Colombelli, Sub-wavelength energy concentration of electrically generated Infrared surface plasmons, submitted.
[11] J.-P. Tetienne, A. Bousseksou, D. Costantini, Y. De Wilde, R. Colombelli, Design of an integrated grating coupler for the generation of surface plasmon polaritons, Opt. Express 19, 18155-18163 (2011).
[10] J-P. Tetienne, A. Bousseksou, D. Costantini, R. Colombelli, A. Babuty, I. Moldovan-Doyen, Y. De Wilde, C. Sirtori, G. Beaudoin, L. Largeau, R. Braive, I. Sagnes, Injection of mid-infrared surface plasmon polaritons with an integrated device, Appl. Phys. Lett. 97, 211110 (2010).
[9] A. Babuty, A. Bousseksou, J-P. Tetienne, I. Doyen, C. Sirtori, G. Beaudoin, I. Sagnes, Y. De Wilde, R. Colombelli, semiconductor plasmon sources, Phys. Rev. Lett. 104, 226806 (2010).
[8] A. Bousseksou, Y. Chassagneux, J.R. Coudevylle, R. Colombelli, C. Sirtori, G. Patriarche, G. Beaudoin, I. Sagnes, Surface-plasmon distributed-feedback quantum cascade lasers operating pulsed, room-temperature, Appl. Phys. Lett. 95, 091105 (2009), DOI:10.1063/1.3202765.
[7] G. Xu, V. Moreau, Y. Chassagneux, A. Bousseksou, R. Colombelli, G. Patriarche, G. Beaudoin, I. Sagnes, Surface emitting photonic crystal mid-infrared quantum cascade lasers, Appl. Phys. Lett. 94, 221101 (2009), DOI:10.1063/1.3143652.
[6] A. Bousseksou, R. Colombelli, A. Babuty, Y. De Wilde, Y. Chassagneux, C. Sirtori, G. Patriarche, G. Beaudoin, and I. Sagnes, A semiconductor laser device for the generation of surface-plasmons upon electrical injection, Opt. Express 17, 9391-9400 (2009).
[5] A. Bousseksou, V. Moreau, R. Colombelli, C. Sirtori, G. Patriarche, O. Mauguin, L. Largeau, G. Beaudoin and I. Sagnes, Surface-plasmon distributed-feedback mid-infrared quantum cascade lasers based on hybrid plasmon/air-guided modes, Electronics Letters vol. 44, no. 13, 19th June, 2008, p. 807-808.
[4] M. Bardoux, A. Bousseksou, G. Tessier, S. Bouchoule, D. Fourniera, A. Salhic, Y. Rouillardc F. Genty, Thermoreflectance imaging of laser diodes and VCSELs along and perpendicular to the emission direction, Opt Laser Eng (2008) doi:10.1016/j.optlaseng.2008.07.011.
[3] A. Bousseksou, S. Bouchoule, M. El Kurdi, M. Strassner, I. Sagnes, P. Crozat, and J. Jacquet, Fabrication and characterization of 1.55 µm single transverse mode large diameter electrically pumped VECSEL, Optical and Quantum Electronics, Vol. 38, no. 15, december 2006, p. 1269-1278.
[2] A. Bousseksou, M. El Kurdi, M. D. Salik, I. Sagnes, and S. Bouchoule, Wavelength Tunable InP-based EP-VECSEL operating at Room Temperature and in CW at 1.55 µm, Electronics Letters vol. 40, no. 23, 11th November, 2004, p. 1490-1491.
[1] M. El Kurdi, S. Bouchoule, A. Bousseksou, I. Sagnes, A. Plais, M. Strassner, C. Symonds, A. Garnache and J. Jacquet, Room-temperature continuous-wave laser operation of electrically-pumped 1.55 µm VECSEL, Electronics Letters vol. 40, no. 11, 27th May, 2004, p. 671-672.
Conférences invitées:
[24] Mid-infrared field concentration of electrically-generated surface plasmons polaritons, SPIE Photonics West 2012, San Francisco, CA, USA.
[23] Semiconductor Surface Plasmon Sources, International Quantum Cascade Laser School and Workshop, August 30 September 03, 2010, Villa Finaly, Florence, Italy.
Conférences Internationales (Présentation orales, actes avec comité de lecture):
[22] A. Bousseksou, J-P. Tetienne, R. Colombelli, A. Babuty, I.C. Moldovan-Doyen, Y. De Wilde, G. Beaudoin, I. Sagnes, Guiding and extreme focusing of long-wavelength radiation with designer’s surface-plasmons, ITQW 2011, Sardinia, Italy.
[21] Y. De Wilde, A. Babuty, I. Moldovan-Doyen, L. Greusard, R. Rungsawang, J.-P. Tetienne, D. Costantini, A. Bousseksou, R. Colombelli, G. Beaudoin, I. Sagnes, Direct near-field study of generation, coupling, propagation and design of surface plasmons polaritons in the mid-infrared, ImagineNano 2011, Bilbao, Spain
[20] Y. De Wilde, A. Babuty, I. Moldovan-Doyen, L. Greusard, R. Rungsawang, J.-P. Tetienne, D. Costantini, A. Bousseksou, R. Colombelli, G. Beaudoin, I. Sagnes Near-field microscopy study of propagation and focusing of designer’s surface plasmons polaritons at mid-infrared wavelength, Cleo Europe 2011, Munich, Germany.
[19] D. Costantini, A. Bousseksou, A. Babuty, L. Greusard, Y. De Wilde, C. Sirtori, A. Accard, G. Duan, R. Colombelli, Plasmonic waveguides for active semiconductor devices at telecom wavelengths using transverse-magnetic-polarized diode lasers, JMD5, CLEO 2011, Baltimore, USA.
[18] A. Bousseksou, J-P. Tetienne; R. Colombelli, A. Babuty, I. Moldovan-Doyen, Y. De Wilde, G. Beaudoin, Isabelle Sagnes, Mid-infrared direct injection and sub-wavelength focusing of designer's surface plasmons polaritons, QTuA2, CLEO 2011, Baltimore, USA.
[17] A. Bousseksou, A. Babuty, J-P. Tetienne, D. Costantini, I. Moldovan-Doyen, G. Beaudoin, C. Sirtori, I Sagnes, Y. De Wilde, R. Colombelli, Mid-infrared direct coupling of surface-plasmon polaritons, FWO2, FiO 2010, Rochester, USA.
[16] A. Bousseksou, A. Babuty, J-P. Tetienne, I. Moldovan-Doyen, G. Beaudoin, C. Sirtori, I Sagnes, Y. De Wilde2, R. Colombelli, A Compact Semiconductor Device for Surface Plasmon Generation and Launching, CThE3, CLEO 2010, San Jose, USA.
[15] I. C. Moldovan Doyen, A. Babuty, A. Bousseksou, R. Colombelli, S. Grésillon, Y. De Wilde, Low Temperature near-Field Scanning Optical Microscopy of IR and THz Surface-Plasmon Quantum Cascade Lasers, CTuOO2, CLEO 2010, San Jose, USA.
[14] A. Bousseksou, J-R. Coudevylle, G. Xu, R. Colombelli, C. Sirtori, G. Beaudoin, I. Sagnes, Room-temperature edge and surface-emitting distributed-feedback quantum cascade lasers without top cladding layers, SPIE Photonics West 2010, 7616-41, San Francisco, USA.
[13] A. Babuty, Y. De Wilde, A. Bousseksou, J.-P Tetienne, Y. Chassagneux, R. Colombelli, Near field observation of surface plasmons generated electrically, TNT 2009 Barcelona, Spain.
[12] J. Teissier, S. Laurent, C. Sirtori, A. Bousseksou, J.R. Coudevylle, R. Colombelli, I. Sagnes, G. Beaudoin, O. Mauguin, L. Largeau, G. Patriarche, Integrated distributed feedback quantum cascade laser-modulator using vertically coupled cavities, ITQW, September 2009, Montreal, Canada.
[11] G. Xu, V. Moreau, Y. Chassagneux, A. Bousseksou, R. Colombelli, G. Patriarche, G. Beaudoin, I. Sagnes, Surface emitting mid-infrared quantum cascade lasers with metallic photonic-crystal resonators, ITQW, September 2009, Montreal, Canada.
[10] G. Xu, V. Moreau, Y. Chassagneux, A. Bousseksou, R. Colombelli, G. Patriarche, G. Beaudoin, I. Sagnes, Surface emitting photonic crystal mid-infrared quantum cascade lasers, CLEO 2009, Paper CthL7, May 2009, Baltimore, USA.
[9] R. Colombelli; Y. Chassagneux; A. Bousseksou; V. Moreau; S. Barbieri; C. Sirtori; G. Patriarche; G. Beaudoin; I. Sagnes; H. E. Beere; D. A. Ritchie, Mid/far-infrared semiconductor devices exploiting plasmonic effects, SPIE Photonics West 2009, 7222-18, San Jose, USA.
[8] A. Bousseksou, Y. Chassagneux, R. Colombelli, A. Babuty, Y. De Wilde, C. Sirtori, G. Patriarche, G. Beaudoin, I. Sagnes, Surface-plasmon distributed-feedback mid-infrared quantum cascade lasers based on hybrid plasmon/air-guided modes, IEEE LEOS, ThO 3, November 2008, Newport Beach, USA.
[7] A. Bousseksou, Y. Chassagneux, R. Colombelli, A. Babuty, Y. De Wilde, C. Sirtori, G. Patriarche, G. Beaudoin, I. Sagnes. Surface-plasmons on structured metallic surfaces: application to mid-IR semiconductor lasers and a-SNOM observation of the active device, EOS Annual meeting, October 2008; Paris, France.
[6] A. Bousseksou, Y. Chassagneux, R. Colombelli, A. Babuty, Y. De Wilde, G. Patriarche, G. Beaudoin, and I. Sagnes, "Surface-Plasmons on Structured Metallic Surfaces: Theoretical Analysis, Applications to Mid-Infrared Quantum Cascade Lasers and a-SNOM Survey," in Plasmonics and Metamaterials, OSA Technical Digest (CD) (Optical Society of America, 2008), paper MThC2, October 2008, Rochester, USA.
[5] A. Bousseksou, Y. Chassagneux,R. Colombelli, A. Babuty,Y. De Wilde, C. Sirtori, G. Patriarche, G. Beaudoin, I. Sagnes, Surface-plasmon DFB quantum cascade laser: an active device for surface-plasmon generation, IQCLSW, September 2008, Monte Verita , Switzerland.
[4] A. Bousseksou, S. Bouchoule, M. El Kurdi, M. Strassner, I. Sagnes, J. Jacquet and paul Crozat, 1.55µm InP-based electrically-pumped VECSELs: comparison of buried and implanted tunnel junction as current confinement schemes for the realisation of single-transverse-mode large diameter (50µm), SPIE Photonics West, 6484-15, January 2007, San Jose, USA.
[3] Bousseksou, S. Bouchoule, M. El Kurdi, K. Merghem, I. Sagnes, M. Strassner, and J. Jacquet, Comparison of buried and implanted tunnel junction as current confinement schemes for the realisation of single-transverse-mode large diameter (50µm) 1.55µm InP-based electrically-pumped VECSELs, IEEE LEOS, Wj5, November 2006, Montreal, Canada.
[2] A. Bousseksou, S. Bouchoule, M. El Kurdi, K. Merghem, I. Sagnes, M. Strassner, and J. Jacquet, Single-Transverse-Mode Emission of RT-CW Operating Large Diameter (50µm) 1.55µm InP-based Electrically-Pumped VECSELS, IEEE LEOS, WC5, October 2005, Sydney, Australia.
[1] A. Bousseksou, M. El Kurdi, S. Bouchoule, M. D. Salik, and I. Sagnes, Tunable InP-based EP-VECSEL Operating at Room Temperature and in CW for 1.55 µm Wavelength, IEEE LEOS, TuAA4, November 2004, Puerto Rico, USA.](index_files/image003.gif)
