[1] |
Kampfrath, T.; Tanaka, K.; Nelson, KA., Resonant and nonresonant control over matter and light by intense terahertz transients, Nat. Photonics, 7, 680-690 (2013) |
[2] |
Vidal, S.; Degert, J.; Tondusson, M., Optimized terahertz generation via optical rectification in ZnTe crystals, Opt Soc Am B, 31, 149-153 (2014) |
[3] |
Carleer, AP; Debeir, O.; Wolff, E., Comparison of very high spatial resolution satellite image segmentations, Proc SPIE, 5238, 532-543 (2004) |
[4] |
Ferguson, B.; Zhang, XC., Materials for terahertz science and technology, Nat Mater, 1, 26-33 (2002) |
[5] |
Sizov, F., THz radiation sensors, Opto-Electron Rev, 18, 10-36 (2010) |
[6] |
Hirori, H.; Doi, A.; Blanchard, F., Single-cycle terahertz pulses with amplitudes exceeding 1 MV/cm generated by optical rectification in LiNbO \(####\), Appl Phys Lett, 98 (2011) |
[7] |
Mattauch, RJ; Crowe, TW., GaAs Schottky devices for submillimeter wavelengths, Int J Infrared Millim Waves, 8, 1235-1241 (1987) |
[8] |
Sirtori, C.; Dhillon, S.; Faugeras, C., Quantum cascade lasers: the semiconductor solution for lasers in the mid- and far-infrared spectral regions, Phys Status Solidi (A), 203, 3533-3537 (2006) |
[9] |
Kohler, R.; Tredicucci, A.; Beltram, F., Terahertz semiconductor-heterostructure laser, Nature, 417, 156-159 (2002) |
[10] |
Gopal, A.; Herzer, S.; Schmidt, A., Observation of Gigawatt-Class THz pulses from a compact laser-driven particle accelerator, Phys Rev Lett, 111 (2013) |
[11] |
Carr, GL; Martin, MC; McKinney, WR, High-power terahertz radiation from relativistic electrons, Nature, 420, 153-156 (2002) |
[12] |
Hamster, H.; Sullivan, A.; Gordon, S., Subpicosecond, electromagnetic pulses from intense laser-plasma interaction, Phys Rev Lett, 71, 2725-2728 (1993) |
[13] |
Yugami, N.; Higashiguchi, T.; Gao, H., Experimental observation of radiation from Cherenkov wakes in a magnetized plasma, Phys Rev Lett, 89 (2002) |
[14] |
Sheng, ZM; Mima, K.; Zhang, J., Powerful terahertz emission from laser wake fields excited in inhomogeneous plasmas, Phys Plasmas, 12 (2005) |
[15] |
Azad, AK; Zhang, W., Resonant terahertz transmission in subwavelength metallic hole arrays of sub-skin-depth thickness, Opt Lett, 30, 2945-2947 (2005) |
[16] |
Xie, X.; Xu, J.; Dai, J., Enhancement of terahertz wave generation from laser induced plasma, Appl Phys Lett, 90 (2007) |
[17] |
D’Amico, C.; Houard, A.; Franco, M., Coherent and incoherent radial THz radiation emission from femtosecond filaments in air, Opt Express, 15, 15274-15279 (2007) |
[18] |
D’Amico, C.; Houard, A.; Franco, M., Conical forward THz emission from femtosecond laser-beam filamentation in air, Phys Rev Lett, 98 (2007) |
[19] |
Malik, AK; Malik, HK; Kawata, S., Investigations on terahertz radiation generated by two superposed femtosecond laser pulses, J Appl Phys, 107 (2010) |
[20] |
Malik, HK; Malik, AK., Strong and collimated terahertz radiation by super-Gaussian lasers, Euro Phys Lett, 100, 45001 (2012) |
[21] |
Bratman, VL; Zorin, VG; Kalynov, YK, Plasma creation by terahertz electromagnetic radiation, Phys Plasmas, 18 (2011) |
[22] |
Bhasin, L.; Tripathi, VK., Terahertz generation via optical rectification of x-mode laser in a rippled density magnetized plasma, Phys Plasmas, 16 (2009) |
[23] |
Singh, RK; Sharma, RP., Terahertz generation by two cross focused Gaussian laser beams in magnetized plasma, Phys Plasma, 21 (2014) |
[24] |
Sharma, RP; Singh, RK., Terahertz generation by two cross focused laser beams in collisional plasmas, Phys Plasma, 21 (2014) |
[25] |
Singh, RK; Singh, M.; Rajouria, SK, Strong terahertz emission by optical rectification of shaped laser pulse in transversely magnetized plasma, Phys Plasmas, 24 (2017) |
[26] |
Niknam, AR; Banjafar, MR; Jahangiri, F., Resonant terahertz radiation from warm collisional inhomogeneous plasma irradiated by two Gaussian laser beams, Phys Plasmas, 23 (2016) |
[27] |
Miao, C.; Palastro, JP; Antonsen, TM., High-power tunable laser driven THz generation in corrugated plasma waveguides, Phys Plasmas, 24 (2017) |
[28] |
Guo, LJ; Guo, LX; Li, JT., Propagation of terahertz electromagnetic waves in a magnetized plasma with inhomogeneous electron density and collision frequency, Phys Plasmas, 24 (2017) |
[29] |
Rawat, P.; Rawat, V.; Gaur, B., Generation of terahertz radiation by intense hollow Gaussian laser beam in magnetized plasma under relativistic-ponderomotive regime, Phys Plasmas, 24 (2017) |
[30] |
Safari, S.; Niknam, AR; Jahangiri, F., Terahertz radiation generation through the nonlinear interaction of Hermite and Laguerre Gaussian laser beams with collisional plasma: field profile optimization, J Appl Phys, 123 (2018) |
[31] |
Safari, S.; Jazi, B., About generation of terahertz radiation due to the nonlinear interaction of Gaussian and Hermite cosh Gaussian laser beams in collisional plasma background: optimization and field profile controlling, IEEE Trans Plasma Sci, 47, 155-161 (2019) |
[32] |
Mehta, A.; Kant, N.; Vij, S., Generation of terahertz (THz) radiation by p-polarised lasers beating in hot plasma with surface density ripple, Laser Phys Lett, 16 (2019) |
[33] |
Mehta, A.; Rajput, J.; Kant, N., Effect of frequency-chirped laser pulses on terahertz radiation generation in magnetized plasma, Laser Phys, 29 (2019) |
[34] |
Varshney, P.; Sajal, V.; Singh, KP, Strong terahertz radiation generation by beating of extra-ordinary mode lasers in a rippled density magnetized plasma, Laser Part Beams, 31, 337-344 (2013) |
[35] |
Singh, RK; Kumar, S.; Sharma, RP., High power terahertz wave generation by optical rectification of a Gaussian laser pulse propagating in magnetoplasma, IEEE Trans Plasma Sci, 45, 786-790 (2017) |
[36] |
Zhou, Z.; Wang, Y.; Yuan, C., Self-focusing and defocusing of Gaussian laser beams in plasmas with linear temperature ramp, Phys Plasmas, 18 (2011) |
[37] |
Hashemzadeh, M., Self-focusing and defocusing of Gaussian laser beams in collisional inhomogeneous plasmas with linear density and temperature ramps, Phys Plasmas, 25 (2018) |
[38] |
Liu, CS; Tripathi, VK; Eliasson, B., High power laser plasma interaction (2019), Cambridge: University Press, Cambridge |
[39] |
Cao, LF; Uschmann, I.; Forster, E., Space-time characterization of laser plasma interactions in the warm dense matter regime, Laser Partic Beams, 25, 239-244 (2007) |
[40] |
Mehta, A.; Kant, N.; Thakur, V., Numerical study of nonlinear current density produced by beating of two chirped lasers in plasma with density-ripple, J Phys Conf Ser, 1531 (2020) |
[41] |
Mehta, A.; Rajput, J.; Kang, K., Terahertz generation by beating of two chirped pulse lasers in spatially periodic density plasma, Laser Phys, 30 (2020) |
[42] |
Trager, F., Springer handbook of lasers and optics (2007), New York: Springer, New York |
[43] |
Fan, W.; Zhu, B.; Wu, Y., Measurement of the chirp characteristics of linearly chirped pulses by a frequency domain interference method, Opt Express, 21, 13062-13067 (2013) |