Optimising of the material and laser parameters for high-power laser spatial beam smoothing based on stimulated Brillouin scattering

Abstract: In this paper, we numerically study the influence of material and laser parameters on laser spatial beam uniformity improvement based on stimulated Brillouin scattering (SBS). Owing to the intensity dependent property of SBS, the higher intensity parts of the laser beam experience a deep reflection, while the other parts transmit through the medium with weak reflection. Then, the uniformity of the input laser beam is improved. A single frequency laser with a 20th order super-Gaussian shaped output pulse was us… Show more

“…The main parameters of non-linear medium and laser source used in our simulation are set as follows: the wavelength of pump light is 0.527 μm, the pump pulse duration is 3 ns, the refraction index of the non-linear material is 1.303, the Brillouin gain coefficient is 0.2 cm/GW, the acoustic frequency is 2.14 GHz and the phonon time is 5 ps (parameters above are corresponds to heavy fluorocarbon liquid materials FC-70 [11]). The beam diameter used in our simulation is 40 mm.…”

“…However, the total transmissivity of SLM devices is relatively low [7], and the beam quality is improved at the cost of the output energy. In our previous research, we proposed a more effective method based on SBS to enhance laser near-field uniformity with high energy transmittance [10,11]. SBS attracts extensive attention owing to its wide applications both in high quality laser generation [12][13][14][15], optical amplification [16,17] and distributed optical fiber sensing [18].…”

Spatiotemporal shaping of high power laser pulses based on stimulated brillouin scattering

“…The main parameters of non-linear medium and laser source used in our simulation are set as follows: the wavelength of pump light is 0.527 μm, the pump pulse duration is 3 ns, the refraction index of the non-linear material is 1.303, the Brillouin gain coefficient is 0.2 cm/GW, the acoustic frequency is 2.14 GHz and the phonon time is 5 ps (parameters above are corresponds to heavy fluorocarbon liquid materials FC-70 [11]). The beam diameter used in our simulation is 40 mm.…”

“…However, the total transmissivity of SLM devices is relatively low [7], and the beam quality is improved at the cost of the output energy. In our previous research, we proposed a more effective method based on SBS to enhance laser near-field uniformity with high energy transmittance [10,11]. SBS attracts extensive attention owing to its wide applications both in high quality laser generation [12][13][14][15], optical amplification [16,17] and distributed optical fiber sensing [18].…”

Spatiotemporal shaping of high power laser pulses based on stimulated brillouin scattering

Theoretical studies of high-power laser beam smoothing via stimulated brillouin scattering in plasma