TY - JOUR
T1 - Activities of the CLIO infrared facility
AU - Ortega, Jean-Michel
AU - Berset, J.-M.
AU - Chaput, R.
AU - Glotin, F.
AU - Humbert, G.
AU - Jaroszynski, D.
AU - Joly, P.
AU - Kergosien, B.
AU - Lerel, J.
AU - Marcouillé, O.
AU - Peremans, André
AU - Prazeres, R.
AU - Tadjeddine, Abderrahmane
PY - 1996
Y1 - 1996
N2 - The infrared CLIO FEL has operated as a user facility since mid-1992. About 2400 h of laser beam time are now produced annually, of which 800 h are dedicated to FEL physics and optimisation and 1600 h for laser users. The user beam time is allocated by a programme committee, the demands exceeding the available beam time by a large factor. CLIO spectral range spans 3 to 50 μm and its peak power is several MW in 0.2 to 5 ps long pulses. It is based on a dedicated radiofrequency linear accelerator. The repetition rate of the micropulses can be varied from 32 to 4 ns during 10 μs long macropulses (at up to 50 Hz) and average power up to a few Watt is achievable. Besides the laser facility, CLIO is used internally to study FEL physics. Several new studies have been successfully conducted at CLIO: ultrashort FEL pulses, 2-colors simultaneously generated, undulator step tapering, harmonic generation and self amplified spontaneous emission (SASE) at 5 μm. Several of these studies have resulted in the improvements of the user facility. The application of CLIO are in the following fields: - Semiconductors and quantum wells physics - Near field infrared microscopy - Vibrational energy transfers in molecules in rare gas matrices - Pump-probe study of vibrational relaxation of molecules - Surfaces and interfaces studies by sum frequency generation (“SFG”) - Medicine. Ancillary equipment is provided to the users. In particular optical parametric oscillators (“OPOs”) can provide powerful tunable infrared source between 2 and 8 μm to supplement CLIO.
AB - The infrared CLIO FEL has operated as a user facility since mid-1992. About 2400 h of laser beam time are now produced annually, of which 800 h are dedicated to FEL physics and optimisation and 1600 h for laser users. The user beam time is allocated by a programme committee, the demands exceeding the available beam time by a large factor. CLIO spectral range spans 3 to 50 μm and its peak power is several MW in 0.2 to 5 ps long pulses. It is based on a dedicated radiofrequency linear accelerator. The repetition rate of the micropulses can be varied from 32 to 4 ns during 10 μs long macropulses (at up to 50 Hz) and average power up to a few Watt is achievable. Besides the laser facility, CLIO is used internally to study FEL physics. Several new studies have been successfully conducted at CLIO: ultrashort FEL pulses, 2-colors simultaneously generated, undulator step tapering, harmonic generation and self amplified spontaneous emission (SASE) at 5 μm. Several of these studies have resulted in the improvements of the user facility. The application of CLIO are in the following fields: - Semiconductors and quantum wells physics - Near field infrared microscopy - Vibrational energy transfers in molecules in rare gas matrices - Pump-probe study of vibrational relaxation of molecules - Surfaces and interfaces studies by sum frequency generation (“SFG”) - Medicine. Ancillary equipment is provided to the users. In particular optical parametric oscillators (“OPOs”) can provide powerful tunable infrared source between 2 and 8 μm to supplement CLIO.
U2 - 10.1016/0168-9002(95)01431-4
DO - 10.1016/0168-9002(95)01431-4
M3 - Article
SN - 0168-9002
VL - 375
SP - 618
EP - 625
JO - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
JF - Nuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
IS - 1-3
ER -