T.C. Wilson, Z.-M. Sheng, P. McKenna, B. Hidding, Self-focusing, compression and collapse of ultrashort weakly-relativistic Laguerre–gaussian lasers in near-critical plasma. J. Phys. Commun. 7(3), 035002 (2023)
V. Thakur, S. Kumar, N. Kant, Self-focusing of a Bessel–Gaussian laser beam in plasma under density transition. J. Nonlinear Opt. Phys. Mater., (2022)
S. Kumar, S. Vij, N. Kant, V. Thakur, Nonlinear Interaction of Amplitude-Modulated Gaussian Laser Beam with Anharmonic magnetized and rippled CNTs: THz Generation. Braz. J. Phys. 53(2), 37 (2023)
H.K. Midha, V. Sharma, N. Kant, V. Thakur, Resonant Terahertz radiation by p-polarised chirped laser in hot plasma with slanting density modulation. J. Opt., (2023)
J. Singh, S. Rani, H.K. Midha, V. Sharma, V. Thakur, Exploring THz efficiency: frequency chirp dynamics in Sinh-Gaussian laser–plasma interaction. J. Opt., (2024)
S. Kumar, V. Thakur, N. Kant, Magnetically enhanced THz generation by self-focusing laser in VA-MCNTs. Phys. Scr. 98(8), 085506 (2023)
V. Thakur, N. Kant, Resonant second harmonic generation of chirped pulse laser in plasma. Optik (Stuttg). 129, 239–247 (2017)
V. Thakur, N. Kant, Resonant second harmonic generation in plasma under exponential density ramp profile. Optik (Stuttg). 168, 159–164 (2018)
X. Feng, S. Lee, The beat-wave accelerator in a relativistic electron oscillation plasma. J. Phys. B: at. Mol. Opt. Phys. 29(9), L373–L380 (1996)
T. Tajima, X.Q. Yan, T. Ebisuzaki, Wakefield acceleration. Rev. Mod. Plasma Phys. 4(1), 7 (2020)
H.R. Askari, A. Shahidani, Effect of magnetic field on production of wake field in laser–plasma interactions: gaussian-like (GL) and rectangular–triangular (RT) pulses. Optik - Int. J. Light Electron. Opt. 124(17), 3154–3161 (2013)
T. Tajima, J.M. Dawson, Laser Electron accelerator. Phys. Rev. Lett., 43, 267, (1979)
J. Hecht, Short history of laser development. Opt. Eng. 49(9), 091002 (2010)
A. Kr, Dubey, V. Yadava, Experimental study of nd:YAG laser beam machining—An overview. J. Mater. Process. Technol. 195, 1–3 (2008)
A.M. Weiner, Ultrafast optical pulse shaping: a tutorial review. Opt. Commun. 284(15), 3669–3692 (2011)
V. Sharma, V. Thakur, Enhanced laser wakefield acceleration utilizing Hermite–Gaussian laser pulses in homogeneous plasma. J. Opt., (2023)
V. Sharma, S. Kumar, N. Kant, V. Thakur, Enhanced laser wakefield by beating of two co-propagating gaussian laser pulses. J. Opt., (2023)
R. Kumar Mishra, A. Saroch, P. Jha, Simulation study of wakefield generation by two color laser pulses propagating in homogeneous plasma. Phys. Plasmas, 20, 9, (2013)
P. Jha, A. Saroch, N. Kumar Verma, Wakefield generation via two color laser pulses. Phys. Plasmas, 20, 5, (2013)
R. Fallah, S.M. Khorashadizadeh, Influence of Gaussian, Super-gaussian, and Cosine-Gaussian Pulse properties on the Electron Acceleration in a homogeneous plasma. IEEE Trans. Plasma Sci. 46(6), 2085–2090 (2018)
V. Sharma, N. Kant, V. Thakur, Effect of different gaussian-like laser profiles on electron energy gain in laser wakefield acceleration. Opt. Quantum Electron. 56(1), 45 (2024)
W.P. Leemans et al., Electron-Yield Enhancement in a laser-Wakefield Accelerator Driven by Asymmetric Laser pulses. Phys. Rev. Lett. 89(17), 174802 (2002)
K. Gopal, D.N. Gupta, Optimization and control of electron beams from laser wakefield accelerations using asymmetric laser pulses. Phys. Plasmas, 24, 10, (2017)
V. Sharma, S. Kumar, N. Kant, V. Thakur, Excitation of the laser wakefield by asymmetric chirped laser pulse in under dense plasma. J. Opt., (2023)
K. Gopal, D.N. Gupta, H. Suk, Pulse-length effect on laser Wakefield Acceleration of electrons by Skewed Laser pulses. IEEE Trans. Plasma Sci. 49(3), 1152–1158 (2021)
V. Sharma, S. Kumar, N. Kant, V. Thakur, Effect of frequency chirp and pulse length on laser Wakefield Excitation in under-Dense Plasma. Braz. J. Phys. 53(6), 157 (2023)
M. Abedi-Varaki, Electron acceleration by a circularly polarized electromagnetic wave publishing in plasma with a periodic magnetic field and an axial guide magnetic field. Mod. Phys. Lett. B 32(20), 1850225 (2018)
Article ADS MathSciNet Google Scholar
V. Sharma, S. Kumar, N. Kant, V. Thakur, Effect of wiggler magnetic field on wakefield excitation and electron energy gain in laser wakefield acceleration. Z. für Naturforschung A, (2023)
X. Zhang, T. Wang, V.N. Khudik, A.C. Bernstein, M.C. Downer, G. Shvets, Effects of laser polarization and wavelength on hybrid laser wakefield and direct acceleration. Plasma Phys. Control Fusion. 60(10), 105002 (2018)
V. Sharma, S. Kumar, N. Kant, V. Thakur, Enhanced laser wakefield acceleration by a circularly polarized laser pulse in obliquely magnetized under-dense plasma. Opt. Quantum Electron. 55(13), 1150 (2023)
V. Sharma, S. Kumar, To study the effect of laser frequency-chirp on trapped electrons in laser wakefield acceleration. J. Phys. Conf. Ser. 2267(1), 012097 (2022)
H.S. Ghotra, Laser wakefield and direct laser acceleration of electron by chirped laser pulses. Optik (Stuttg). 260, 169080 (2022)
V. Sharma, V. Thakur, Lasers wakefield acceleration in underdense plasma with ripple plasma density profile. J. Opt., (2023)
F. Dorchies et al., Acceleration of injected electrons in a laser wakefield experiment. Phys. Plasmas. 6(7), 2903–2913 (1999)
H. Dewa et al., Experiments of high energy gain laser wakefield acceleration. Nucl. Instrum. Methods Phys. Res. A 410(3), 357–363 (1998)
M.K. Masaki Kando et al., Experimental results of laser Wakefield Acceleration using a Femtosecond Terawatt Laser Pulse. Jpn J. Appl. Phys., 38, no. 8B, p. L967, (1999)
M.J. van der Wiel et al., Laser wakefield acceleration: the injection issue. Overview and latest results. Philosophical Trans. Royal Soc. A: Math. 364(1840), 679–687 (2006). Physical and Engineering Sciences
A. Jain, D.N. Gupta, Optimization of electron bunch quality using a chirped laser pulse in laser wakefield acceleration. Phys. Rev. Accelerators Beams. 24(11), 111302 (2021)
V. Sharma, V. Thakur, A comprehensive study of magnetic field-induced modifications in sin-gaussian pulse-driven laser wakefield acceleration. J. Opt., (2024)
V. Sharma, N. Kant, V. Thakur, Optimizing laser-driven electron acceleration with sinh-squared gaussian pulses. J. Opt., (2024)
V. Sharma, V. Thakur, Comparative analysis of electron acceleration by Gaussian and cosh-gaussian laser pulses in homogeneous plasma through laser wakefield acceleration. J. Opt., (2024)
V. Sharma, V. Thakur, A comparative study of laser wakefield produced by Ti: sapphire laser, nd: YAG laser and CO2 laser under identical conditions. J. Opt., (2024)
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