LiopStar-E

extreme narrow bandwidth system down to 0,02cm^-¹

wide spectral range 197nm – 5000nm

low ASE <0,5%

repetition rates up to 250kHz

high efficient laser resonator

exchangeable grating

Gaussian near beam quality due to Bethune cells

eroded stainless-steel case for oscillator and amplifier cuvettes for highest stability

new state-of-the art integrated electronics and user-friendly software

intelligent PI control for FCU autotracking unit with temperature stabilized crystals

USB port

remote control via TCP / IP protocol

smallest footprint

Options:

frequency conversion units

internal open loop frequency doubling with look-up-table

internal open loop frequency tripling and mixing with look-up-table¹

autotracking² FCU available for second-harmonic generation (SHG), third-harmonic generation (THG)¹, sum- and difference frequency mixing (SFM, DFM)^1,3

intelligent PI-control corrects phase matching deviation of the look-up-table algorithm

high scan speed, up to 10 nm/min

usable for repetition rates from < 1 Hz up to 250 kHz

temperature control for crystals up to 70°C

Application:

- laser induced fluorescence: LIF - photolysis

- combustion and atmospheric studies - light detection and ranging: LIDAR

- Raman spectroscopy - coherent antistokes raman spectroscopy: CARS

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¹SHG, THG, SFM and DFM operation requires a LiopStar-E with LSEH extension

²wavelength separation is required for autotracking operation

³for narrowband operation a seeder for the Nd:YAG pump laser is recommend

energy output

dye	UV/IR wavelength	pump energy @ 10Hz	dye laser	output energy
SHG¹ 206 nm – 450 nm
Coumarin 120	220 nm	280 mJ @ 355 nm	LiopStar-E-N	> 5 mJ
Coumarin 307	250 nm	280 mJ @ 355 nm	LiopStar-E-N	> 5 mJ
Rhodamine 6G	280 nm	400 mJ @ 532 nm	LiopStar-E-N	> 25 mJ
DCM	320 nm	400 mJ @ 532 nm	LiopStar-E-N	> 25 mJ
THG¹ 197 nm – 212 nm
Rhodamine B	200 nm	400 mJ @ 532 nm	LiopStar-E-N	3 mJ
Rhodamine 101	205 nm	400 mJ @ 532 nm	LiopStar-E-N	6 mJ
DCM	210 nm	400 mJ @ 532 nm	LiopStar-E-N	6 mJ
DFM^1,3 1.4 μm – 5.0 μm
DCM	1.6 μm	400 mJ @ 532 nm	LiopStar-E-N	6 mJ
Pyridine1	2.0 μm	400 mJ @ 532 nm	LiopStar-E-N	5.5 mJ
Styryl 9	3.4 μm	400 mJ @ 532 nm	LiopStar-E-N	800 μJ
LDS 867	4.7 μm	400 mJ @ 532 nm	LiopStar-E-N	100 μJ

linewidth specifications LiopStar-E
	grating		tuning range	linewidth
LiopStar-E	1800 l/mm, 90 mm		355 nm – 900 nm	< 0.06 cm^-1 @ 620 nm
LiopStar-E	2400 l/mm, 90 mm		355 nm – 740 nm	< 0.06 cm^-1 @ 570 nm
LiopStar-E	3000 l/mm, 90 mm		355 nm – 610 nm	< 0.05 cm^-1 @ 560 nm
LiopStar-E-N	double 1800 l/mm, 90 mm		355 nm – 900 nm	< 0.05 cm^-1 @ 620 nm
LiopStar-E-N	double 2400 l/mm, 90 mm		355 nm – 720 nm	< 0.04 cm^-1 @ 570 nm
LiopStar-E-N	double 3000 l/mm, 90 mm		355 nm – 580 nm	< 0.03 cm^-1 @ 570 nm
beam specifications LiopStar-E
conversion efficiency: Nd:YAG pumped 355 nm		20% @ 405 nm Exalite 404 14% @ 460 nm Coumarin 47
conversion efficiency: Nd:YAG pumped 532 nm		25% @ 630 nm DCM 28% @ 565 nm Rhodamine 6G
wavelength reproducibility		< 0.002 nm
absolute accuracy		< 0.01 nm
scan linearity		< 0.002 nm
wavelength stability		< 0.001 nm/°C
divergence		0.5 mrad
polarisation		> 98 % vertical
ASE-background		< 0.5 %
dimensions LiopStar-E
Liop-Star-E		750 mm x 400 mm x 300 mm ± 10 mm, 50 kg
LSEH-Extension		750 mm x 400 mm x 300 mm ± 10 mm, 30 kg
beam input height		180 mm ± 10 mm
beam output height		200 mm ± 10 mm
requirements LiopStar-E
pump laser pulse power		10 mJ … 1000 mJ (high power option), s-pol
voltage		110 V 6A / 220 V 3 A, 50/60 Hz, single phase
computer		Windows, one free USB port