1986
DOI: 10.1109/jqe.1986.1072964
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Simultaneous measurement of the two-photon coefficient and free-carrier cross section above the bandgap of crystalline silicon

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Cited by 161 publications
(63 citation statements)
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“…The FCA process involves the absorption by the electron of another photon, and the consequent promotion to a higher state in the conduction band. So, the FCA process can lead to the reduction of transmittance when the incident fluence increases, which has been reported in semiconductor materials such as Cd x Ag 1-x S nanoparticles, [30] crystalline Si, [31] and MoS 2 nanotubules. [32] Although FCA is the accepted OL mechanism, nonlinear scattering cannot be excluded from the OL effect for CuS hollow spheres.…”
Section: Full Papermentioning
confidence: 81%
“…The FCA process involves the absorption by the electron of another photon, and the consequent promotion to a higher state in the conduction band. So, the FCA process can lead to the reduction of transmittance when the incident fluence increases, which has been reported in semiconductor materials such as Cd x Ag 1-x S nanoparticles, [30] crystalline Si, [31] and MoS 2 nanotubules. [32] Although FCA is the accepted OL mechanism, nonlinear scattering cannot be excluded from the OL effect for CuS hollow spheres.…”
Section: Full Papermentioning
confidence: 81%
“…The threshold and saturation values of the title compound are comparable to those of C60, which is considered as one of the best optical limiting materials [29]. According to the basic theoretical consideration, the TPA-induced-transmissivity change for a Gaussian transverse distribution laser beam will be expressed [30] as:…”
Section: Optical Limiting Effectsmentioning
confidence: 99%
“…Boggess et al first discovered that an electron can absorb two photons (having individual energies below the semiconductor band gap) approximately at the same time, and reach the excited state in the conduction band [128]. Reintjes et al first measured the TPA coefficient β = 1.5 cm/GW using 1060 nm picosecond laser pulse [129].…”
Section: All-si Pdsmentioning
confidence: 99%