Lilian JOLY
Professeur des universités (URCA)
Expertise: Pr. Joly est associé à une chaire universitaire et une seconde chaire industrielle ANR. Ses activités de recherche à l’interface entre la spectroscopie et les sciences de l’atmosphère sont au cœur des problématiques sociétales en lien avec les émissions de gaz à effet de serre. Il est responsable du pôle de recherche et d'innovation AEROLAB qui vise à apporter une expertise et des solutions pour le suivi et l'analyse des émissions atmosphériques (urbaines, agricoles, industrielles...) à différentes échelle spatio-temporelles.
Titres universitaires
2020: HDR, URCA, "La spectrométrie diode laser appliquée aux sciences de l’atmosphère"
2005 : Doctorat de physique, Université de Reims, ”Spectroscopie laser Infrarouge et applications”
2002 : DEA Méthodes Physiques d’Analyse et Instrumentation (URCA)
Publications
Near infrared diode laser spectroscopy of C2H2, H2O, CO2 and their isotopologues and the application to TDLAS, a tunable diode laser spectrometer for the Martian PHOBOS-Grunt space mission. G. Durry, J. Li, I. Vinogradov, A. Titov, A.V. Kalyuzhny, L. Joly, J. Cousin, T. Decarpenterie, N. Amarouche, M. Liu, B. Parvitte, O. Korablev, M. Gerasimov, V. Zéninari, Applied Physics B
Pulsed quantum cascade laser spectroscopy with intermediate-size pulses: application to NH3 in the 10 µm region, B. Grouiez, V. Zéninari, L. Joly, B. Parvitte, Applied Physics B
J. Li, L. Joly, J. Cousin, B. Parvitte, B. Bonno, V. Zéninari, G. Durry, «Diode laser spectroscopy of two acetylene isotopologues (12C2H2, 13C12CH2) in the 1.533 µm region for the PHOBOS-Grunt space mission», Spectrochimica Acta Part A, in press, 2009.
L. Joly, F. Marnas, F. Gibert, D. Bruneau, B. Grouiez, P.H. Flamant, G. Durry, N. Dumelié, V. Zéninari, B. Parvitte, “Laser diode absorption spectroscopy for accurate CO2 line parameters at 2 µm. Consequences for space-based DIAL measurements and potential biases”, Applied Optics, in press, 2009.
Development of a compact CO2 sensor based on near-infrared laser technology for enological applications, M. Mulier, V. Zéninari, L. Joly, T. Decarpenterie, B. Parvitte, P. Jeandet, G. Liger-Belair, Acceptée pour publication à Applied Physics B : Lasers and Optics
Alternative method for gas detection using pulsed quantum cascade laser spectrometers, B. Grouiez, B. Parvitte, L. Joly, V. Zéninari, Optics Letters, 34, 2, pp. 181-183, (2009)
Inter-comparison of 2µm heterodyne differential absorption lidar, Laser diode spectrometer, LICOR NDIR analyzer and flasks measurements of near-ground atmospheric CO2 mixing ratio, F. Gibert, L. Joly, I. Xuéref-Rémy, M. Schmidt, A. Royer, P.H. Flamant, M. Ramonet, B. Parvitte, G. Durry, V. ZéninariSpectrochimica Acta Part A, 71, pp. 1914-1921, (2009)
A case study of CO2, CO and particles content evolution in the suburban atmospheric boundary layer using a 2-μm Doppler DIAL, a 1-μm backscatter lidar and an array of in-situ sensors, F.Gibert, I. Xuéref-Rémy, L. Joly, M. Schmidt, J. Cuesta, K. J. Davis, M. Ramonet, P.H. Flamant, B. Parvitte, V. Zéninari, Boundary-Layer Meteorology, 128, 3, pp. 381-401 (2008)
Quantum cascade laser spectroscopy of N2O in the 7.9 µm region for the in situ monitoring of the atmosphere, A. Grossel, V. Zéninari, B. Parvitte, L. Joly, G. Durry, D. Courtois, Journal of Quantitative Spectroscopy and Radiative Transfer, 109, 10 pp. 1845-1855, (2008)
Laser diode spectroscopy of the H2O isotopologues in the 2.64 micron region for the in situ monitoring of the Martian atmosphere, G. Durry, L. Joly, T. Le Barbu, B. Parvitte, V. Zéninari, Infrared Physics and Technology, 51, 3, pp. 229–235, (2008)
A complete study of line parameters of CO2 around 4845 cm-1 for Lidar applications, L. Joly, F. Gibert, B. Grouiez, A. Grossel, B. Parvitte, G. Durry, V. Zéninari, Journal of Quantitative Spectroscopy and Radiative Transfer, 109, 3, pp. 426-434, (2008)
Comparison of a Quantum Cascade Laser used in both cw and pulsed mode. Application to the study of SO2 lines around 9 µm, B. Grouiez, B. Parvitte, L. Joly, D. Courtois, V. Zéninari, Applied Physics B: Lasers and Optics, 90, 2, pp. 177–186, (2008)
Laser diode spectroscopy of H2O at 2.63 micron for atmospheric applications, G. Durry, N. Amarouche, L. Joly, X. Liu, B. Parvitte, V. Zéninari, Applied Physics B: Lasers and Optics, 90, 3-4, pp. 573–580, (2008)
Development of a spectrometer using a cw DFB quantum cascade laser operating at room temperature for the simultaneous analysis of N2O and CH4 in the Earth’s atmosphere, L. Joly, C. Robert, B. Parvitte, V. Catoire, G. Durry, G. Richard, B. Nicoullaud, V. Zéninari, Applied Optics, 47, 9, pp. 1206-1214, (2008)
Study of SO2 line parameters with a quantum cascade laser spectrometer around 1090 cm-1. Comparison with theoretical calculations of the n1 and n1 + n2 – n2 bands of 32SO2 and the n1 band of 34SO2, V. Zéninari, L. Joly, B. Grouiez, B. Parvitte, A. Barbe, Journal of Quantitative Spectroscopy and Radiative Transfer, 105, 2, pp. 312-325, (2007)
Development of a compact CO2 sensor open to the atmosphere based on near-infrared laser technology
L. Joly, B. Parvitte, V. Zéninari, G. Durry, Applied Physics B: Lasers and Optics, 86, 4, pp. 743-748, (2007)
Photoacoustic detection of nitric oxide with a Helmholtz resonant quantum cascade laser sensor
A. Grossel, V. Zéninari, B. Parvitte, L. Joly, G. Durry, D. Courtois, Infrared Physics and Technology, 51, 2, pp. 95-101, (2007)
Optimization of a compact photoacoustic quantum cascade laser spectrometer for atmospheric flux measurements: application to the detection of methane and nitrous oxide A. Grossel, V. Zéninari, B. Parvitte, L. Joly, D. Courtois, Applied Physics B: Lasers and Optics, 88, 3, pp. 483–492, (2007)
Water vapor isotope ratio measurements in air with a quantum cascade laser spectrometer
L. Joly, V. Zéninari, B. Parvitte, D. Courtois, G. Durry, Optics Letters, 31, 2, pp. 143-145, (2006)
New improvements in methane detection using a Helmholtz resonant photoacoustic laser sensor: a comparison between near-IR diode lasers and mid-IR quantum cascade lasers, A. Grossel, V. Zéninari, L. Joly, B. Parvitte, G. Durry, D. Courtois, Spectrochimica Acta Part A, 63, 5, pp. 1021-1028, (2006)
A spectroscopic study of water vapor isotopologues H216O, H218O and HDO using a continuous wave DFB quantum cascade laser in the 6.7µm region for atmospheric applications, L. Joly, B. Parvitte, V. Zéninari, D. Courtois, G. Durry, Journal of Quantitative Spectroscopy and Radiative Transfer, 102, 2, pp. 129-138, (2006)
Laboratory spectroscopic calibration of infrared tunable laser spectrometers for the in situ sensing of the Earth and Martian atmospheres, V. Zéninari, B. Parvitte, L. Joly, T. Le Barbu, N. Amarouche, G. Durry, Applied Physics B: Lasers and Optics, 85, 2-3, pp. 265-272, (2006)
In situ sensing of atmospheric CO2 with laser diodes near 2.05 µm: a spectroscopic study,V. Zéninari, A. Vicet, B. Parvitte, L. Joly, G. Durry, Infrared Physics and Technology, 45, 3, pp. 229-237, (2004)
Preliminary results of heterodyne detection with quantum cascade lasers in the 9.1 µm region
B. Parvitte, L. Joly, V. Zéninari, D. Courtois, Spectrochimica Acta Part A, 60, 14, pp. 3285-3290, (2004)
L. Joly, Spectroscopic study of the n1 band of SO2 using a continuous wave DFB QCL at 9.1 µm
V. Zéninari, B. Parvitte, D. Weidmann, D. Courtois, Y. Bonetti, T. Aellen, M. Beck, J. Faist, D. Hofstetter, Applied Physics B: Lasers and Optics, 77, 6-7, pp. 703-706, (2003)
Free running 9.1 µm DFB QCL linewidth measurement by heterodyning with a C18O2 laser. D. Weidmann, L. Joly, V.Parpillon, D. Courtois , Y. Bonetti, T Aellen, M .Beck, J. Faist, D. Hofstetter. Optics Letters, 28, 9, pp 704-706 (2003)