Search Results

1 - 12 of 122 Products for 'bandwidth' Page 1 of 11 |
Related Categories: Rega 9000 | Mira Verdi | Rega | Rega 9040 | Bragg

bandwidth

Evolution family DS

Evolution family DS

…specified bandwidth - -
at 60 nm bandwidth - -
at maximum specified bandwidth >325 >550
Bandwidth (nm)(FWHM) >70 (fixed) <180 to >220 at -10dB
Tuning Range (nm)
at minimum specified bandwidth - -
at 60 nm bandwidth - -
at 100 nm bandwidth - -

COHR Vitara DS 0416revC 3.pdf

COHR Vitara DS 0416revC 3.pdf

…minimum specified bandwidth >525 >930
at 60 nm bandwidth >450 >850
at maximum specified bandwidth >425 >800
Bandwidth (nm)(FWHM) 30 to 125 40 to 100
Tuning Range (nm)
at minimum specified bandwidth 755 to 860 765 to 810
at 60 nm bandwidth 765 to 840…

Vitara Preinstall.book

Vitara Preinstall.book

…modelocked pulses with bandwidths exceeding 125 nm.
Excellent power stability is achieved by integrating the proven
Coherent Verdi G-seriesTM pump laser, PowerTrackTM beam steering
technology, and a compact cavity design into a single laser head.
Bandwidth and center wavelength…

2016-Ultrafast-Laser-Systems-Catalog.pdf

2016-Ultrafast-Laser-Systems-Catalog.pdf

…using a single femtosecond amplifier.The SHBC
(Second 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…

COHR StingRay BioRay DS.pdf

COHR StingRay BioRay DS.pdf

…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%)…

COHR StingRay BioRay DS 0817 8.pdf

COHR StingRay BioRay DS 0817 8.pdf

…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%)…

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,…

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,…

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,…

Book.book

Book.book


Maximum Bandwidth
Rise and Fall Time (10 to 90%)
Modulation Depth at 0 Hz
Modulation Depth at 150 MHz
Input Impedance
150 MHz
< 2 nsec
*
> 1,000,000:1 (106
:1)
> 250:1
50 ohms
Analog Modulation
Maximum Bandwidth
Rise and…

CPC DS

CPC DS

…Length1
when used with Micra-52
(fs) <15 for 100 nm bandwidth
<25 for 50 nm bandwidth
<40 for 30 nm bandwidth
Typical Output Pulse Length1
when used with Mantis-52
(fs) <20 for 70 nm bandwidth
Input Beam Diameter (mm) ~2
Input Beam Height (mm)…

2011-Diode-Laser-Modules-and-Pattern-Generators-Catalog.pdf

2011-Diode-Laser-Modules-and-Pattern-Generators-Catalog.pdf


Available Center Wavelengths (nm) 532, 635, 660, 670, 680, 685, 780, 810, 830
Bandwidth Tolerances (nm) 20 ±2
40 ±8
70 ±14
Center Wavelength Tolerances (dependent on bandwidth) +2/-2
+5/-5
+10/-10
Diode Laser
Systems
Diode Laser
Modules…

Powered by Site Search powered by SLI Systems

Please Read Before Continuing

Risk factors: Except for the historical information contained here, many of the matters discussed in this Web site are forward-looking statements, based on expectations at the time they were made, that involve risks and uncertainties that could cause our results to differ materially from those expressed or implied by such statements. These risks are detailed in the “Factors That May Affect Future Results” section of our latest 10-K or 10-Q filing. Coherent assumes no obligation to update these forward-looking statements.


I have read the terms and conditions