2-EWP-T-0355 - Enhanced Watt Pilot - Transmission mode attenuator, 355 nm

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2-EWP-T-0355 - Enhanced Watt Pilot - Transmission mode attenuator, 355 nm
US$910.00
Enhanced Watt Pilot consists of 2 high-performance polarizing optics components placed in precision opto-mechanical Holder. The variable attenuator/beamsplitter incorporates 2 high-performance Brewster type polarizers, which reflect s-polarized light while transmitting p-polarized light. These two Brewster type polarizers are housed in special design opto-mechanical adapter. The adapter allows to use either round shape either rectangular shape Brewster type polarizers as well.
A rotating quartz Phase λ/2 Waveplate is placed in the incident polarized laser beam. The intensity ratio of those two beams may be continuously varied without alteration of other beam parameters by rotating the waveplate. The intensity of either exit beam, or their intensity ratio, can be controlled over a wide dynamic range.
P-polarization could be selected for maximum transmission, or high-purity s-polarization could be reflected when maximum attenuation of the transmitted beam takes place.
Optimization Transmission mode
Wavelength, nm 355
Delivery 2-4 weeks
Description

Details

Enhanced Watt Pilot consists of 2 high-performance polarizing optics components placed in precision opto-mechanical Holder. The variable attenuator/beamsplitter incorporates 2 high-performance Brewster type polarizers, which reflect s-polarized light while transmitting p-polarized light. These two Brewster type polarizers are housed in special design opto-mechanical adapter. The adapter allows to use either round shape either rectangular shape Brewster type polarizers as well.
A rotating quartz Phase λ/2 Waveplate is placed in the incident polarized laser beam. The intensity ratio of those two beams may be continuously varied without alteration of other beam parameters by rotating the waveplate. The intensity of either exit beam, or their intensity ratio, can be controlled over a wide dynamic range.
P-polarization could be selected for maximum transmission, or high-purity s-polarization could be reflected when maximum attenuation of the transmitted beam takes place.
Features
  • Ideal for femtosecond applications
  • Divides laser beam into two parallel beams of manually adjustable intensity ratio
  • Large dynamic range
  • Negligible beam deviation
  • High Optical damage threshold
  • Low dispersion for femtosecond and high energy laser pulses
Applications

Specifications of the standard models

MODELHigh Power Enhanced performanceHigh Power
Configurationλ/2 ZO Waveplate + 2x Brewster type thin film polarizersλ/2 LO Waveplate + 2x Brewster type thin film polarizers
Operational wavelenght range+/-10 nm +/-2 nm
Damage treshhold>5 J/cm2>5 J/cm2
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