Summary
When ultrashort (fs), high-power laser pulses propagate through the atmosphere, extended plasma filaments form and emit white light in a spectral range spanning from the ultraviolet (230 nm) to the infrared (4.5 µm). This strongly non-linear optical phenomenon results from a dynamical balance between respectively focusing and defocusing Kerr- and plasma-lenses, which are formed by a nonuniform, intensity-dependent refractive index across the laser beam profile. This non-linear propagation regime opens the way to various applications in atmospheric sciences, such as white-light Lidar relying on the white light continuum, which can be observed up to high altitudes and allows multicomponent remote sensing. Other applications rely on the ability of the filaments to deliver high-intensities and induce non-linear optical effects at remote locations, e.g. bioaerosols remote sensing or solid target analysis. Furthermore, the ionization of the fs-laser-induced filaments permits to control high-voltage discharges, opening the way to laser lightning rods.
This chapter shall review the basic properties of filamentation, with a particular emphasis on one spectacular feature: Their ability to propagate unperturbed across clouds and fogs.
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References
P. Rairoux, H. Schillinger, S. Niedermeier, M. Rodriguez, F. Ronneberger, R. Sauerbrey, B. Stein, D. Waite, C. Wedekind, H. Wille, L. Wöste, Remote sensing of the atmosphere using ultrashort laser pulses, Applied Physics B 71, 573–580 (2000)
J. Kasparian, M. Rodriguez, G. Méjean, J. Yu, E. Salmon, H. Wille, R. Bourayou, S. Frey, Y.-B. André, A. Mysyrowicz, R. Sauerbrey, J.-P. Wolf, L. Wöste, White-light filaments for atmospheric analysis, Science 301, 61 (2003)
G. Méjean, J. Kasparian, J. Yu, S. Frey, E. Salmon, J.-P. Wolf, Remote Detection and Identification of Biological Aerosols using a Femtosecond Terawatt Lidar System, Applied Physics B 78, 535 (2004)
K. Stelmaszczyk, P. Rohwetter, G. Méjean, J. Yu, E. Salmon, J. Kasparian, R. Ackermann, J.-P. Wolf, L. Wöste, Long-distance remote laser-induced breakdown spectroscopy using filamentation in air, Applied Physics Letters 85, 3977 (2004)
H. Pépin, D. Comtois, F. Vidal, C. Y. Chien, A. Desparois, T. W. Johnston, J. C. Kieffer, B. L. Fontaine, F. Martin, F. A. M. Rizk, C. Potvin, P. Couture, H. P. Mercure, A. Bondiou-Clergerie, P. Lalande, I. Gallimberti, Triggering and guiding high-voltage large-scale leader discharges with sub-joule ultrashort laser pulses, Physics of Plasmas 8, 2532 (2001)
D. Comtois, C. Y. Chien, A. Desparois, F. Gérin, G. Jarry, T. W. Johnston, J. C. Kieffer, B. L. Fontaine, F. Martin, R. Mawassi, H. Pépin, F. A. M. Rizk, F. Vidal, P. Couture, H. P. Mercure, C. Potvin, A. Bondiou-Clergerie, I. Gallimberti, Triggering and guiding leader discharges using a plasma channel created by an ultrashort laser, Applied Physics Letters 76, 819 (2000).
D. Comtois, H. Pépin, F. Vidal, F. A. M. Risk, C.-Y. Chien, T. W. Johnston, J.-C. Kieffer, B. La Fontaine, F. Martin, C. Potvin, P. Couture, H. P. Mercure, A. Bondiou-Clergerie, P. Lalande, I. Gallimberti, Triggering and guiding of an upward positive leader from ground rod with an ultrashort laser pulse-I: Experimental results, IEEE transactions on plasma science 31, 377 (2003)
D. Comtois, H. Pépin, F. Vidal, F. A. M. Risk, C.-Y. Chien, T. W. Johnston, J.-C. Kieffer, B. La Fontaine, F. Martin, C. Potvin, P. Couture, H. P. Mercure, A. Bondiou-Clergerie, P. Lalande, I. Gallimberti, Triggering and guiding of an upward positive leader from ground rod with an ultrashort laser pulse-II: Modeling, IEEE transactions on plasma science 31, 387 (2003)
B. La Fontaine, D. Comtois, C. Y. Chien, A. Desparois, F. Gérin, G. Jarry, T. W. Johnston, J. C. Kieffer, F. Martin, R. Mawassi, H. Pépin, F. A. M. Rizk, F. Vidal, C. Potvin, P. Couture, H. P. Mercure, Guiding large-scale spark discharges with ultrashort pulse laser filaments, Journal of Applied Physics 88, 610 (2000).
M. Rodriguez, R. Sauerbrey, H. Wille, L. Wöste, T. Fujii, Y.-B. André, A. Mysyrowicz, L. Klingbeil, K. Rethmeier, W. Kalkner, J. Kasparian, E. Salmon, J. Yu, J.-P. Wolf, Megavolt discharges triggered and guided with laser filaments, Optics Letters 27, 772 (2002)
R. Ackermann, K. Stelmaszczyk, P. Rohwetter, G. Méjean, E. Salmon, J. Yu, J. Kasparian, G. Méchain, V. Bergmann, S. Schaper, B. Weise, T. Kumm, K. Rethmeier, W. Kalkner, J. P. Wolf, L. Wöste, Triggering and guiding of megavolt discharges by laser-induced filaments under rain conditions, Applied Physics Letters 85, 5781 (2004)
A. Braun, G. Korn, X. Liu, D. Du, J. Squier, G. Mourou, Self-channeling of high-peak-power femtosecond laser pulses in air, Optics Letters 20, 73–75 (1995)
L. Wöste, C. Wedekind, H. Wille, P. Rairoux, B. Stein, S. Nikolov, C. Werner, S. Niedermeier, F. Ronnenberger, H. Schillinger, R. Sauerbrey, Femtosecond atmospheric lamp, Laser und Optoelektronik 29, 51 (1997)
H. Wille, M. Rodriguez, J. Kasparian, D. Mondelain, J. Yu, A. Mysyrowicz, R. Sauerbrey, J. P. Wolf, L. Woeste, Teramobile: a mobile femtosecond-terawatt laser and detection system, European Physical J. Applied Physics 20, 183 (2002)
E. T. J. Nibbering, P. F. Curley, G. Grillon, B. S. Prade, M. A. Franco, F. Salin, A. Mysyrowicz, Conical emission from self-guided femtosecond pulses in air, Optics Letters 21, 62 (1996).
A. Brodeur, C. Y. Chien, F. A. Ilkov, S. L. Chin, O. G. Kosareva, V. P. Kandidov, Moving focus in the propagation of ultrashort laser pulses in air, Optics Letters 22, 304 (1997)
M. Mlejnek, E. M. Wright, J. V. Moloney, Dynamic spatial replenishment of femtosecond pulses propagating in air Optics Letters 23, 382 (1998)
D. Strickland, P. B. Corkum, Resistance of short pulses to self-focusing, Journal of the Optical Society of America B 11, 492 (1994)
L. Roso-Franco, Self-Reflected Wave inside a Very Dense Saturable Absorber, Physical Review Letters 55, 2149 (1995)
R. R. Alfano, S. L. Shapiro, Emission in the region 4000 to 7000 Å via fourphoton coupling in glass, Physical Review Letters 24, 584 (1970)
R. R. Alfano, S. L. Shapiro, Observation of Self-Phase Modulation and Small-Scale Filaments in Crystals and Glasses, Physical Review Letters 24, 592 (1970)
R. R. Alfano, S. L. Shapiro, Direct distortion of electric clouds of rare-gas atoms in intense electric fields, Physical Review Letters 24, 1217 (1970)
A. Brodeur, S. L. Chin, Ultrafast white-light continuum generation and self-focusing in transparent condensed media, Journal of the Optical Society of America B 16, 637 (1999)
Y. R. Shen, The principles of nonlinear optics, John Wiley & Sons, New York (1984)
G. Yang, Y. Shen, Spectral broadening of ultrashort pulses in a nonlinear medium, Optics Letters 9, 510 (1984)
A. Gaeta, Catastrophic collapse of ultrashort pulses, Physical Review Letters 84, 3582 (2000)
J. K. Ranka, R. W. Schirmer, A. L. Gaeta, Observation of pulse splitting in nonlinear dispersive media, Physical Review Letters 77, 3783 (1996)
A. Proulx, A. Talebpour, S. Petit, S. L. Chin, Fast pulsed electric field created from the self-generated filament of a femtosecond Ti:Sapphire laser pulse in air, Optics Communications 174, 305 (2000)
S. Tzortzakis, M. A. Franco, Y.-B. André, A. Chiron, B. Lamouroux, B. S. Prade, A. Mysyrowicz, Formation of a conducting channel in air by self-guided femtosecond laser pulses, Physical Review E 60, R3505–R3507 (1999)
S. Tzortzakis, B. Prade, M. Franco, A. Mysyrowicz, Time evolution of the plasma channel at the trail of a self-guided IR femtosecond laser pulse in air, Optics Commun. 181, 123 (2000)
H. Schillinger, R. Sauerbrey, Electrical conductivity of long plasma channels in air generated by self-guided femtosecond laser pulses, Applied Physics B 68, 753 (1999)
J. Schwarz, P. Rambo, J. C. Diels, Measurements of multiphoton ionization coefficients with ultrashort ultraviolet pulses, Applied Physics B 72, 343–347 (2001)
D. Strickland, G. Mourou, Compression of amplified chirped optical pulses, Optics Communications 56, 219 (1985)
P. Maine, D. Strickland, P. Bado, M. Pessot, G. Mourou, Tabletop terawatt laser by chirped pulse amplification, IEEE Journal of Quantum Electronics 24, 398 (1988)
P. L. Kelley, Self-focusing of optical beams, Physical Review Letters 15, 1005 (1965); P. L. Kelley, Erratum: Self-focusing of optical beams, Physical Review Letters 16, 384 (1965)
G. A. Ashkaryan, The self-focusing effect, Sov. Phys. J. 16, 680 (1974)
X. M. Zhao, P. Rambo, J.-C. Diels, Effect of oxygen on the laser triggering of lightning, QELS’95 16, 178 (1995)
J. H. Marburger, E. L. Dawes, Dynamical formation of a small-scale filament, Physical Review Letters 21, 556 (1968). Note that the radius considered in the classical writing of the Marburger formula is the half width at e −1/2, not at 1/e or 1/e2 as usual.
S. L. Chin, From Multiphoton to Tunnel Ionization, in Advances in Multiphoton Processes and Spectroscopy, eds. S. H. Lin, A. A. Villaeys and Y. Fujimura, World Scientific, Singapore, 16, 249–272 (2004)
A. Talebpour, J. Yang, S.L. Chin, Semi-empirical model for the rate of tunnel ionization of N 2 and O 2 molecules in an intense Ti:Sapphire laser pulse, Optics Communications 163, 29 (1999)
J. Kasparian, R. Sauerbrey, S. L. Chin, The critical laser intensity of self-guided light filaments in air, Applied Physics B 71, 877 (2000)
L. Bergé, A. Couairon, Gas-induced solitons, Physical Review Letters 86, 1003 (2001)
A. Becker, N. Aközbek, K. Vijayalakshmi, E. Oral, C. M. Bowden, S. L. Chin, Intensity clamping and re-focusing of intense femtosecond laser pulses in nitrogen molecular gas, Applied Physics B 73, 287 (2001).
B. La Fontaine, F. Vidal, Z. Jiang, C. Y. Chien, D. Comtois, A. Desparois, T. W. Johnston, J.-C. Kieffer, H. Pépin, H. P. Mercure, Filamentation of ultrashort pulse laser beams resulting from their propagation over long distances in air, Physics of Plasmas 6, 1615 (1999).
M. Rodriguez, R. Bourayou, G. Méjean, J. Kasparian, J. Yu, E. Salmon, A. Scholz, B. Stecklum, J. Eislöffel, U. Laux, A. P. Hatzes, R. Sauerbrey, L. Wöste, J.-P. Wolf, Kilometer-range non-linear propagation of femtosecond laser pulses, Physical Review E 69, 036607 (2004)
G. Méchain, A. Couairon, Y.-B. André, C. D’amico, M. Franco, B. Prade, S. Tzortzakis, A. Mysyrowicz, R. Sauerbrey, Long-range self-channeling of infrared laser pulses in air: a new propagation regime without ionization, Applied Physics B 79, 379 (2004)
W. G. Wagner, H. A. Haus, J. H. Marburger, Large-scale self-trapping of optical beams in the paraxial ray approximation, Physical Review 175, 256 (1968); W. G.Wagner, H. A. Haus, J. H. Marburger, Erratum: Large-scale self-trapping of optical beams in the paraxial ray approximation, Physical Review A 3, 2150 (1971)
P. M. Goorjian, A. Taflove, R. M. Joseph, S. C. Hagness, IEEE Journal of Quantum electronics 28, 2416 (1992)
J. K. Ranka, A. L. Gaeta, Breakdown of the slowly varying enveloppe approximation in the self-focusing of ultrashort pulses, Optics Letters 23, 534 (1998).
A. Chiron, B. Lamouroux, R. Lange, J.-F. Ripoche, M. Franco, B. Prade, G. Bonnaud, G. Riazuelo, A. Mysyrowicz, Numerical simulations of the nonlinear propagation of femtosecond optical pulses in gases, The European Physical Journal D 6, 383 (1999)
N. Aközbek, C. M. Bowden, A. Talepbour, S. L. Chin, Femtosecond pulse propagation in air: variational analysis, Physical Review E 61, 4540 (2000)
D. L. Hovhannisyan, Analytic solution of the wave equation describing dispersion-free propagation of a femtosecond laser pulse in a medium with cubic and fifth-order nonlinearity, Optics Commun. 196, 103 (2001)
P. Sprangle, J. R. Peñano and B. Hafizi, Propagation of intense short laser pulses in the atmosphere, Physical Review E 66, 046418 (2002).
M. Mlejnek, M. Kolesik, J. V. Moloney, E. M. Wright, Optically turbulent femtosecond light guide in air, Physical Review Letters 83, 2938 (1999)
C. Ren, R. G. Hemker, R. A. Fonseca, B. J. Duda, W. B. Mori, Mutual attraction of laser beams in plasmas: braided light, Physical Review Letters 85, 2124 (2000).
G. Fibich, B. Ilan, Deterministic vectorial effect lead to multiple filamentation, Optics Letters 26, 840 (2001)
L. Bergé, S. Skupin, F. Lederer, G. Méjean, J. Yu, J. Kasparian, E. Salmon, J. P. Wolf, M. Rodriguez, L. Wöste, R. Bourayou, R. Sauerbrey, Multiple filamentation of TW laser pulses in air, Physical Review Letters 92, 225002 (2004)
S. A. Hosseini, Q. Luo, B. Ferland, W. Liu, S. L. Chin, O. G. Kosareva, N. A. Panov, N. Aközbek, V. P. Kandidov, Competition of multiple filaments during the propagation of intense femtosecond laser pulses, Physical Review A 70, 033802 (2004)
V. P. Kandidov, N. Akozbek, M. Scalora, O. G. Kosareva, A. V. Nyakk, Q. Luo, S. A. Hosseini, S. L. Chin, Towards a control of multiple filamentation by spatial regularization of a high-power femtosecond laser pulse, Applied Physics B 80, 267–275 (2005)
L. V. Keldysh, Sov. Phys. JETP 20, 1307 (1965)
S. L. Chin, S. Petit, F. Borne, K. Miyazaki, The white light supercontinuum is indeed an ultrafast white light laser, Japanese Journal of Applied Physics 38, L126 (1999)
O. G. Kosareva, V. P. Kandidov, A. Brodeur, C. Y. Chen, S. L. Chin, Conical emission from laser-plasma interactions in the filamentation of powerful ultrashort laser pulses in air, Optics Letters 22, 1332 (1997).
J. Zhang, H. Yang, J. Zhang, X. Lu, Y. Li, Y. Li, H. Teng, Z. Chen, Z. Wei, Z. Sheng, 286th Heraeus Seminar on Optical methods in atmospheric analysis, Bad Honnef, Germany, 14–18 October 2002.
J. Yu, D. Mondelain, G. Ange, R. Volk, S. Niedermeier, J.-P. Wolf, J. Kasparian, R. Sauerbrey, Backward supercontinuum emission from a filament generated by ultrashort laser pulses in air, Optics Letters 26, 533–535 (2001)
R. Bourayou, G. Méjean, J. Kasparian, M. Rodriguez, E. Salmon, J. Yu, H. Lehmann, B. Stecklum, U. Laux, J. Eislöffel, A. Scholz, A. P. Hatzes, R. Sauerbrey, L. Wöste, J.-P. Wolf, White-light filaments for multiparameter analysis of cloud microphysics, Journal of the Optical Society of America 22, 369 (2005)
L. Iorio, Classical and Quantum Gravity 19, 175 (2002)
W. Liu, S. Petit, A. Becker, N. Aközbek, C. M. Bowden, S. L. Chin, Intensity clamping of a femtosecond laser pulse in condensed matter, Optics Communications 202, 189–197 (2002)
F. Courvoisier, V. Boutou, J. Kasparian, E. Salmon, G. Méjean, J. Yu, J. P. Wolf, Light filaments transmitted through clouds, Applied Physics Letters 83, 213 (2003)
S. Skupin, L. Bergé, U. Peschel, F. Lederer, G. Méjean, J. Yu, J. Kasparian, E. Salmon, J. P. Wolf, M. Rodriguez, L. Wöste, R. Bourayou, R. Sauerbrey, Filamentation of femtosecond light pulses in the air: Turbulent cells versus long-range clusters, Physical Review E 70, 046602 (2004)
M. Mlejnek, E. M. Wright, J. V. Moloney, Optics Express 4, 223–228 (1999).
M. Kolesik, J. V. Moloney, Self-healing femtosecond light filaments, Optics Letters 29, 590 (2004)
S. Skupin, L. Bergé, U. Peschel, F. Luderer, Interaction of femtosecond light filaments with obscurants in aerosols, Physical Review Letters 93, 023901 (2004)
S. L. Chin, A. Brodeur, S. Petit, O. G. Kosareva, V. P. Kandidov, Filamentation and supercontinuum generation during the propagation of powerful ultrashort laser pulses in optical media (white light laser), Journal of Nonlinear Optical Physics and Materials 8, 121 (1999)
W. Liu, J.F. Gravel, F. Théberge, A. Becker, S.L. Chin, Background reservoir: its crucial role for long-distance propagation of femtosecond laser pulses in air, Applied Physics B 80, 857 (2005)
G. Méjean, J. Kasparian, J. Yu, E. Salmon, S. Frey, J.-P. Wolf, S. Skupin, A. Vinçotte, R. Nuter, S. Champeaux, L. Bergé, Multifilamentation transmission through fog, Physical Review E 72, 026611 (2005)
Classification of the World Climate Research Program (WCRP). See e.g.: http://isccp.giss.nasa.gov/cloudtypes.html
J. Kasparian, Chapter 15 in this volume
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Kasparian, J. (2007). Some Properties of Femtosecond Laser Filamentation Relevant to Atmospheric Applications Part I. The Robustness of Filamentation. In: Progress in Ultrafast Intense Laser Science II. Springer Series in Chemical Physics, vol 85. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-38156-3_14
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