Rapid switching optical shutter alternately transmitting visible radiation and near infrared radiation
First Claim
1. An optical shutter that is rapidly switchable between optical states to alternately transmit visible radiation and near infrared radiation, comprising:
- a broadband wavelength selective polarizing filter constructed to impart a polarization state to incident radiation and transmit polarized radiation within at least the visible wavelength region and the near infrared region of the electromagnetic spectrum;
a wavelength selective polarizing filter pair including, in optical series arrangement, a wavelength selective polarizing filter transmitting polarized radiation within the visible wavelength region and a wavelength selective polarizing filter transmitting polarized radiation within the near infrared wavelength region; and
a liquid crystal polarization modulator positioned to receive incident radiation for internal propagation through the liquid crystal polarization modulator, positioned between the broadband wavelength selective polarizing filter and the wavelength selective polarizing filter pair, and responsive to a first value and a second value of an applied control signal to switch the internally propagating radiation to, respectively, a first polarization state and a second polarization state to produce, in cooperation with the broadband wavelength selective polarizing filter and the wavelength selective polarizing filter pair, optical shutter output radiation in different wavelength regions of the electromagnetic spectrum, the switching of the internally propagating radiation to the first polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the visible wavelength region and the near infrared region, and the switching of the internally propagating radiation to the second polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the near infrared wavelength region and the visible wavelength region.
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Accused Products
Abstract
An optical shutter (10) includes a wavelength selective polarizing filter (12) in optical association with a liquid crystal polarization modulator (14) to rapidly switch between optical states to alternately transmit visible radiation and near infrared radiation. The wavelength selective polarizing filter is constructed to impart a polarization state to incident radiation and transmit polarized radiation within at least the visible wavelength region of the electromagnetic spectrum. The liquid crystal polarization modulator is positioned to receive incident radiation for internal propagation through the liquid crystal polarization modulator and is responsive to a first value and a second value of an applied control signal (32) to switch the internally propagating radiation to, respectively, a first polarization state and a second polarization state. The switching between the first and second polarization states produces, in cooperation with the wavelength selective polarizing filter, optical shutter output radiation in different wavelength regions of the electromagnetic spectrum.
23 Citations
10 Claims
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1. An optical shutter that is rapidly switchable between optical states to alternately transmit visible radiation and near infrared radiation, comprising:
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a broadband wavelength selective polarizing filter constructed to impart a polarization state to incident radiation and transmit polarized radiation within at least the visible wavelength region and the near infrared region of the electromagnetic spectrum; a wavelength selective polarizing filter pair including, in optical series arrangement, a wavelength selective polarizing filter transmitting polarized radiation within the visible wavelength region and a wavelength selective polarizing filter transmitting polarized radiation within the near infrared wavelength region; and a liquid crystal polarization modulator positioned to receive incident radiation for internal propagation through the liquid crystal polarization modulator, positioned between the broadband wavelength selective polarizing filter and the wavelength selective polarizing filter pair, and responsive to a first value and a second value of an applied control signal to switch the internally propagating radiation to, respectively, a first polarization state and a second polarization state to produce, in cooperation with the broadband wavelength selective polarizing filter and the wavelength selective polarizing filter pair, optical shutter output radiation in different wavelength regions of the electromagnetic spectrum, the switching of the internally propagating radiation to the first polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the visible wavelength region and the near infrared region, and the switching of the internally propagating radiation to the second polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the near infrared wavelength region and the visible wavelength region. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. An optical shutter that is rapidly switchable between optical states to alternately transmit visible radiation and near infrared radiation, comprising:
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a liquid crystal polarization modulator positioned to receive incident radiation for internal propagation through the liquid crystal polarization modulator, the internally propagating radiation having a polarization state, and the liquid crystal polarization modulator comprising a guest-host liquid crystal mixture that includes a liquid crystal director contained between first and second electrodes and that exhibits variable absorption of different radiation wavelength regions, depending on the orientation of the liquid crystal director relative to the polarization state of the internally propagating radiation; a first wavelength selective polarizing filter imparting a polarization state to incident radiation within the visible wavelength region but not imparting a polarization state to incident radiation within the near infrared wavelength region of the electromagnetic spectrum; a second wavelength selective polarizing filter imparting a polarization state to incident radiation within the visible wavelength region but not imparting a polarization state to incident radiation within the near infrared wavelength region of the electromagnetic spectrum, the first and second wavelength selective polarizing filters positioned adjacent different ones of the first and second electrodes of the liquid crystal polarization modulator; and the liquid crystal polarization modulator responsive to a first value and a second value of an applied control signal to switch the internally propagating radiation to, respectively, a first polarization state and a second polarization state to selectively produce, in cooperation with the first and second wavelength selective polarizing filters, optical shutter output radiation in the visible wavelength region and the near infrared wavelength region, the switching of the internally propagating radiation in the first polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the visible wavelength region and the near infrared region, and the switching of the internally propagating radiation to the second polarization state causing transmission and blockage of the optical shutter output radiation within, respectively, the near infrared wavelength region and the visible wavelength region. - View Dependent Claims (9, 10)
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Specification