Detection of scattered light pulses at femto-Joule level by using a picosecond BBO optical parametric amplifier

2008 
We report a technique for detecting weak scattered light pulses based on a 532 nm pumped picosecond beta-barium-borate collinear optical parametric amplifier. The measured maximum slope gain factor of the amplifier was found to be around 107, and the energy detection limit was of the order of fJ/pulse for the signal of 730 nm and the idler of 1.5 mu m at a pumping intensity of 2.83 GW/cm(2). The linearity of the gain for this amplifier was found to be excellent for a seeding level of lower than 420 fJ per pulse. The maximum gains and the energy detection limits for the scattered light pulses from various scattering targets were found to be poorer than that from the reflective mirror, owing to the degraded beam quality and the depolarization of the scattered light. A reduction of the maximum gain for the scattered light with the increase of the angle of incidence, which causes pulse broadening and reduces the photon flux of the signal, was investigated. The feasibility of detecting weak scattered light in the infrared by using idler-to-signal frequency up-conversion was also demonstrated, in which the infrared seeder located in the idler branch of the amplifier was injected as the seeding beam and was then parametrically up-converted into the visible signal branch, with an even higher gain. (c) 2007 Elsevier B.V. All rights reserved.
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