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bandwidth

CUBE 640FP DS

CUBE 640FP DS

…Preliminary Genesis MX 561-2000 MX 577-3000/5000 Wavelength (nm) 561 ±3 577 ±3 Output Power (mW) 2000 3000, 5000 Spatial Mode Multimode Bandwidth (nm) 100:1 Direct Modulation5 Available Operating Diode Current (A) 1 MHz; actual performance will be limited by the diode-driver (not included).…

2016-Ultrafast-Laser-Systems-Catalog.pdf

2016-Ultrafast-Laser-Systems-Catalog.pdf

…Harmonic Bandwidth Compressor), converts the wide bandwidth beam at 800 nm from the femtosecond ultrafast amplifier (purchased separately) to a narrow bandwidth beam at 400 nm. This 400 nm beam is then used to pump the TOPAS- 400-ps-WL picoseond OPA model to generate tunable, narrow bandwidth beam…

COHR StingRay BioRay DS.pdf

COHR StingRay BioRay DS.pdf

…to 1V is output power off, Input 4V to 5V is 100% output power Digital TTL (T) Maximum bandwidth of 100 KHz Rise time (10% to 90%) <1 msec Fall time (90% to 10%) <1 msec Fast Digital TTL (FT) Maximum bandwidth of 2 MHz Rise time (10% to 90%) <150 nsec Fall time (90% to 10%) <150 nsec User can adjust…

COHR StingRay BioRay DS.pdf

COHR StingRay BioRay DS.pdf

…to 1V is output power off, Input 4V to 5V is 100% output power Digital TTL (T) Maximum bandwidth of 100 KHz Rise time (10% to 90%) <1 msec Fall time (90% to 10%) <1 msec Fast Digital TTL (FT) Maximum bandwidth of 2 MHz Rise time (10% to 90%) <150 nsec Fall time (90% to 10%) <150 nsec User can adjust…

COHR StingRay BioRay DS 0817 8.pdf

COHR StingRay BioRay DS 0817 8.pdf

…to 1V is output power off, Input 4V to 5V is 100% output power Digital TTL (T) Maximum bandwidth of 100 KHz Rise time (10% to 90%) <1 msec Fall time (90% to 10%) <1 msec Fast Digital TTL (FT) Maximum bandwidth of 2 MHz Rise time (10% to 90%) <150 nsec Fall time (90% to 10%) <150 nsec User can adjust…

Chameleon-Peak-Power-White-Paper FORMFIRST.pdf

Chameleon-Peak-Power-White-Paper FORMFIRST.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

Chameleon-Peak-Power-White-Paper.pdf

Chameleon-Peak-Power-White-Paper.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

Chameleon-Peak-Power-White-Paper.pdf

Chameleon-Peak-Power-White-Paper.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

Chameleon-Peak-Power-White-Paper.pdf

Chameleon-Peak-Power-White-Paper.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

WP ChameleonPeakPower Final.pdf

WP ChameleonPeakPower Final.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

WP ChameleonPeakPower Final.pdf

WP ChameleonPeakPower Final.pdf

…have a bandwidth of 6.725 nm. In practice, a perfect pulse is very hard to achieve, and for Ti:S lasers the bandwidth is usually between 1.1-1.3 times higher than the transform limit. The shorter a pulse becomes in width, the larger the bandwidth. This is important, because broad bandwidth pulses…

Book.book

Book.book

…SYSTEM SPECIFICATIONS VALUE Digital Modulation Maximum Bandwidth Rise and Fall Time (10 to 90%) Modulation Depth at 0 Hz Modulation Depth at 150 MHz Input Impedance 150 MHz 1,000,000:1 (106 :1) > 250:1 50 ohms Analog Modulation Maximum Bandwidth Rise and Fall Time (10 to 90%) Modulation Depth Input…

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