. Fabry,

, IFP offre une plage spectrale (10GHz) et une résolution (700 MHz) intermédiaire entre

, D'autre part, le principe de l'IFP repose sur l'interférométrie à onde multiple qui permet d'analyser et de reconstruire une composante spectrale très rapidement. La durée d'acquisition d'un spectre complet est d'environ 10ms ce qui est plusieurs ordres de grandeur plus

A. Ferrari and G. G. , Subkilohertz Fluctuations and Mode Hopping in High-Power GratingStabilized 980-nm Pumps, p.515, 2002.

A. K. Bosco and D. W. , Low-frequency fluctuations in a laser diode with phase-conjugate feedback, Proc. SPIE 8432, Semiconductor Lasers and Laser Dynamics V, p.843213, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00702176

A. Makami and J. O. , Stability analysis of semiconductor laser with phase-conjugate feedback, IEEE Journal of Quantum Electronics, pp.1825-1831, 1997.

A. Naumenko and P. B. , Characteristics of a semiconductor laser coupled with a fiber Bragg grating with arbitrary amount of feedback, IEEE Journal of Quantum Elect, 2003.
URL : https://hal.archives-ouvertes.fr/hal-00145950

B. Dahmani and L. H. , Frequency stabilization of semiconductor lasers by resonant optical feedback, pp.876-878, 1987.

B. E. Bernacki and P. R. , Alignment-insensitive technique for wideband tuning of an unmodified semiconductor laser, pp.725-727, 1988.

B. Krauskopf and D. L. , Frequency versus relaxation oscillations in a semiconductor laser with coherent filtered optical feedback, Physical Review E, 2006.

B. Tromborg and J. M. , Nonlinear injection locking dynamics and the onset of coherence collapse in external cavity lasers, IEEE Journal of Quantum Electronics, pp.642-654, 1990.

N. H. Bevacqua, COHERENT (VISIBLE) LIGHT EMISSION FROM Ga(As1?x P x ), JUNCTIONS. Appl. Phys. Lett, issue.82, p.1, 1962.

C. H. Henry and R. K. , Instability of semiconductor lasers due to optical feedback from distant reflectors, Journal of Quantum Electronics, vol.22, issue.2, pp.294-301, 1986.

R. T. Chraplyvy, Linewidth broadening and mode splitting due to weak feedback in singlefrequency 1.5 ?m lasers, Electronics Letters, pp.1081-1083, 1985.

D. Crawford and M. M. , Design and performance of 980 nm pump laser module exhibiting greater than 400 mW kink-free fiber-coupled power, pp.482-483, 2002.

D. Lenstra, On the theory of a single-mode laser with weak optical feedback, Physica B+C, pp.255-264, 1984.

D. Lenstra and B. V. , Coherence collapse in single-mode semiconductor lasers due to optical, Journal of Quantum Electronics, issue.6, p.21, 1985.

M. Bird and J. A. , Narrow line semiconductor laser using fibre grating, Electronics Lettres, pp.1115-1116, 1991.

T. Erdogan, Fiber grating spectra, Journal of Lightwave Technology, 1997.

F. Favre and D. L. , Low-frequency fluctuation regime in a multimode semiconductor laser subject to a mode-selective optical feedback, IEEE . F. Rogister, M. S, pp.341-347, 1982.

G. E. Fenner and J. D. , Coherent light emission from GaAs junctions, Phys. Rev. Lett, 1962.

G. M. Yang, Highly reliable high-power 980-nm pump laser, IEEE Photonics Technology Letters, pp.2403-2405, 2004.

H. Erzgräber and D. L. , Fedback phase sensitivity of a semiconductor laser subject to filtered optical feedback: Experiment and theory, Physical Review E, 2007.

H. Haken, Analogy between higher instabilities in fluids and lasers, Physics Letters A, pp.77-78, 1975.

C. Henry and M. H. Bell-labs, Theory of the linewidth of semiconductor lasers, IEEE Journal of Quantum Electronics, pp.259-264, 1982.

H. Hisham, A. Abas, G. Mahdiraji, and M. A. Mahdi, Relative Intensity Noise Reduction by Optimizing Fiber Grating Fabry-Perot Laser Parameters, IEEE Journal of Quantum Electronics, pp.375-383, 2011.

I. Hayashi and M. B. , Junction lasers which operate continuously at room temperature, Appl. Phys. Lett, pp.109-111, 1970.

H. S. Mørka, Return-map for low-frequency fluctuations in semiconductor lasers with optical feedback, pp.93-97, 1999.

J. Ohtsubo and Y. T. , Low-frequency fluctuations and frequency locking in semiconductor lasers with optical feedback, Proc. SPIE, vol.3749, p.296, 1999.

J. Osmundsen and N. G. , Influence of optical feedback on laser frequency spectrum and threshold conditions, Journal of Quantum Electronics, vol.19, issue.3, pp.465-469, 1983.

K. Krupa and A. T. , Radio-frequency spectrum coding in ultra-long fibre laser based cryptography. Transparent Optical Networks (ICTON), 17th International Conference on, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01223689

K. Petermann and N. S. , Numerical analysis of the feedback regimes for a single-mode semiconductor laser with external feedback, IEEE Journal of Quantum Electronics, pp.1242-1247, 1988.

G. H. Lenstra, Semiconductor lasers with optical injection and feedback. Quantum and Semiclassical Optics, Journal of the European Optical Society Part B, 1995.

E. N. Lorenz, Deterministic Nonperiodic Flow, Journal of the Atmospheric Sciences, 1963.

M. Achtenhagen and S. M. , L-I characteristics of fiber Bragg grating stabilized 980-nm pump lasers, vol.13, pp.415-417, 2001.

M. Dabbicco and G. S. , Laser-Self-Mixing Fiber Sensor for Integral Strain Measurement, Journal of Lightwave Technology, 2010.

M. K. Davis and A. K. , Impact of near-end residual reflectivity on the spectral performance of high-power pump lasers, IEEE Journal of Quantum Electronics, pp.354-363, 2004.

M. K. Davis and G. G. , Grating stabilization design for high-power 980-nm semiconductor pump lasers, Journal of Quantum Electronics, issue.5, p.11, 2005.

M. Osinski and J. B. , Linewidth broadening factor in semiconductor lasers--An overview, Journal of Quantum Electronics, vol.23, issue.1, pp.9-29, 1987.

M. W. Pan and B. P. , Semiconductor laser dynamics subject to strong optical feedback, vol.22, pp.166-168, 1997.

M. Yousefi and D. L. , Jun). feedback, Dynamical behavior of a semiconductor laser with filtered external optical, Journal of Quantum Electronics, issue.6, p.35, 1999.

M. Yousefi and D. L. , Global bistability in a semiconductor laser with filtered optical feedback, 2001.

M. K. Davis and A. K. , Impact of near-end residual reflectivity on the spectral performance of high-power pump lasers, vol.40, pp.354-363, 2004.

J. Mørk, Bistability and low-frequency fluctuations in semiconductor lasers with optical feedback: a theoretical analysis, IEEE Journal of Quantum Electronics, pp.123-133, 1988.

K. C. Myatt, External-cavity diode laser using a grazing-incidence diffraction grating, pp.910-912, 1991.

O. Lidoyne and P. B. , Modulation properties of an injection-locked semiconductor laser, IEEE Journal of Quantum Electronics, pp.344-351, 1991.

J. Ohtsubo, Semiconductot lasers, stability, instability and chaos, 2007.

P. A. Morton, V. M. , and .. , Stable single mode hybrid laser with high power and narrow linewidth, Applied Physics Letters, 1994.

K. Peterman, Laser diode modulation and noise, BOSTON, 1988.

J. H. Petermann, A simple analytical expression for the stable operation range of laser diodes with optical feedback, IEEE J. Quantum Electron, pp.833-836, 1990.

R. Badii and N. M. , Dynamics of multimode diode lasers with strong, frequency-selective optical feedback, Physical Review E, 2003.

R. J. Jones and P. S. , Influence of external cavity length on the coherence collapse regime in laser diodes subject to optical feedback, IEE Proceedings Optoelectronics, pp.7-12, 2002.

R. Lang and K. K. , Properties, External optical feedback effects on semiconductor injection laser, IEEE Journal of Quantum Electronics, pp.347-355, 1980.

R. Mcgowan and D. C. , Dual Bragg grating frequency stabilization of a 980 nm diode laser, pp.671-672, 2002.

R. N. Hall and G. E. , Coherent Light Emission From GaAs Junctions, Phys. Rev. Lett, vol.9, issue.366, 1962.

R. W. Tkach and A. R. , Regimes of feedback effects in 1.5-µm distributed feedback lasers, Journal of Lightwave Technology, vol.4, issue.11, pp.1655-1661, 1986.

R. Wyatt and W. J. , 10 kHz Linewidth 1.5 ?m InGaAsP External Cavity Laser with 55 nm Tuning Range, Electronics Letters, vol.19, issue.3, pp.110-112, 1983.

S. Donati and R. H. , The Diagram of Feedback Regimes Revisited, Journal of Quantum Electronics, issue.4, p.19, 2012.

S. Piazzolla and P. S. , Small signal analysis of frequency chirping in injection-locked semiconductor lasers, IEEE J. Quant. Electron, 1986.

T. Sanoo, Antimode Dynamics and Chaotic Itinerancy in the Coherence Collapse of Semiconductor Lasers with Optical Feedback, Physical Review A, 1994.

N. Servagent, Etude et conception de capteurs opto-électronique auto-alignés de distances et de déplacements pour le contrôle non destructif. thèse INPT n0 1319, 1997.

J. Sigg, Effects of optical feedback on the light-current characteristics of semiconductor lasers, Journal of Quantum Electronics, vol.29, issue.5, pp.1262-1270, 1993.

T. B. Simpson and J. M. , Bandwidth enhancement and broadband noise reduction in injectionlocked semiconductor lasers, IEEE Photonics Technology Letters, pp.709-711, 1995.

T. Erdogan and V. M. , Decay of ultraviolet-induced fiber Bragg gratings, J. Appl. Phys, 1994.

T. Heil and I. F. , Coexistence of Low Frequency Fluctuations and stable emission on a single high-gain mode in semiconductor lasers with external optical feedback, Physical Review A, vol.58, 1998.

V. Tartwijk and A. M. , Sisyphus effect in semiconductor lasers with optical feedback, IEEE Journal of Quantum Electronics, pp.466-472, 1995.

C. R. Voumard, Self-pulsation in the output intensity and spectrum of GaAs-AlGaAs cw diode lasers coupled to a frequency-selective external optical cavity, Journal of Applied Physics, 1977.

J. L. Li, Mode multiplexing and de-multiplexing using few-mode tilted fiber Bragg grating for SDM-WDM transmission system . Communication Systems (ICCS), IEEE, 2014.

G. G. Yang, Highly reliable high-power 980-nm pump laser, Photonics Technology Letters, issue.11, p.16, 2004.

.. I. Zh and V. A. Alferov, Investigation of the influence of the AlAs-GaAs heterostructure parameters on the laser threshold current and the realization of continuous emission at room temperature, Sov. Phys.-Semicond, pp.1573-1575, 1971.

, Mots clés

, Retour optique sélectif en fréquence, fluctuations basses fréquences, Drop-out, Jump-up, oscillation de relaxation, élargissement spectral