Controlling microparticles through a light field having controllable intensity and periodicity of maxima thereof
First Claim
1. An optical device comprising:
- a laser source;
a telescope collimator in an optical path immediately following the laser source to form a collimated coherent light beam having an axially symmetrical distribution of intensity thereof;
an optical divergence controller in an optical path immediately following the telescope collimator to provide a capability to control divergence of the collimated coherent light beam; and
a glass prism including a planar shape onto which a pyramidal structure is formed, the glass prism being positioned in an optical path immediately following the optical divergence controller such that an output of the optical divergence controller is incident on one of a planar surface of the planar shape and the pyramidal structure,wherein at least one of;
controlling the divergence of the collimated coherent light beam through the optical divergence controller and varying a distance between the optical divergence controller and the glass prism enables controlling a distance between maxima of an output light field of the glass prism and intensity thereof,wherein the output light field of the glass prism is configured to be utilized in controlling microparticles in one of a microtechnology and a nanotechnology application, the microparticles being configured to be placed as part of a sample within a sample holder in an optical path immediately following the glass prism.
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Accused Products
Abstract
A method includes providing a capability to control divergence of a coherent light beam having an axially symmetrical distribution of intensity thereof through an optical divergence controller, and directing an output of the optical divergence controller related to the controlled divergence of the coherent light beam onto a glass prism. The glass prism includes a planar shape onto which a pyramidal structure is formed. The method also includes controlling a distance between maxima of an output light field of the glass prism and intensity thereof through controlling the divergence of the coherent light beam through the optical divergence controller and/or varying a distance between the optical divergence controller and the glass prism, and utilizing the output light field of the glass prism in controlling microparticles in a microtechnology or a nanotechnology application.
190 Citations
7 Claims
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1. An optical device comprising:
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a laser source; a telescope collimator in an optical path immediately following the laser source to form a collimated coherent light beam having an axially symmetrical distribution of intensity thereof; an optical divergence controller in an optical path immediately following the telescope collimator to provide a capability to control divergence of the collimated coherent light beam; and a glass prism including a planar shape onto which a pyramidal structure is formed, the glass prism being positioned in an optical path immediately following the optical divergence controller such that an output of the optical divergence controller is incident on one of a planar surface of the planar shape and the pyramidal structure, wherein at least one of;
controlling the divergence of the collimated coherent light beam through the optical divergence controller and varying a distance between the optical divergence controller and the glass prism enables controlling a distance between maxima of an output light field of the glass prism and intensity thereof,wherein the output light field of the glass prism is configured to be utilized in controlling microparticles in one of a microtechnology and a nanotechnology application, the microparticles being configured to be placed as part of a sample within a sample holder in an optical path immediately following the glass prism. - View Dependent Claims (2, 3, 4)
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5. An optical system comprising:
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a laser source; a telescope collimator in an optical path immediately following the laser source to form a collimated coherent light beam having an axially symmetrical distribution of intensity thereof; an optical divergence controller in an optical path immediately following the telescope collimator to provide a capability to control divergence of the collimated coherent light beam; a glass prism including a planar shape onto which a pyramidal structure is formed, the glass prism being positioned in an optical path immediately following the optical divergence controller such that an output of the optical divergence controller is incident on one of a planar surface of the planar shape and the pyramidal structure; and an ensemble of microparticles as part of a sample within a sample holder in an optical path immediately following the glass prism, wherein at least one of;
controlling the divergence of the collimated coherent light beam through the optical divergence controller and varying a distance between the optical divergence controller and the glass prism enables controlling a distance between maxima of an output light field of the glass prism and intensity thereof, andwherein the output light field of the glass prism is configured to be utilized in controlling the ensemble of microparticles. - View Dependent Claims (6, 7)
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Specification