PHASE ENGINEERING AND COMPUTATIONAL RECOVERY FOR SPATIAL 'OMICS

Organization Name

Double Helix Optics Inc.

Inventor(s)

Anurag Agrawal of Ft. Collins CO (US)

Warren Colomb of Arvada CO (US)

Scott Gaumer of Greenbrae CA (US)

PHASE ENGINEERING AND COMPUTATIONAL RECOVERY FOR SPATIAL 'OMICS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240054644 titled 'PHASE ENGINEERING AND COMPUTATIONAL RECOVERY FOR SPATIAL 'OMICS

Simplified Explanation

The optical system described in the patent application includes an objective lens, a camera, and an optical element. The objective lens has a back focal plane, and the camera captures an image of a biological sample. The optical element is optically coupled to the back focal plane, extends the depth of field defined by the objective lens, and maintains light throughput for the camera to capture the image within the extended depth of field.

• The optical system includes an objective lens, camera, and optical element.
• The objective lens has a back focal plane.
• The camera captures images of biological samples.
• The optical element extends the depth of field and maintains light throughput for capturing images within the extended depth of field.

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1. 1. 1. Potential Applications

• Medical imaging
• Microscopy
• Biotechnology research

1. 1. 1. Problems Solved

• Limited depth of field in traditional optical systems
• Maintaining light throughput for capturing images of biological samples

1. 1. 1. Benefits

• Enhanced image quality
• Improved visualization of biological samples
• Increased depth of field for better focus and clarity

Original Abstract Submitted

an optical system may include an objective lens, a camera, and an optical element. the objective lens may include a back focal plane. the camera may capture an image representative of a biological sample. the optical element may be optically coupled to the back focal plane. the optical element may extend a depth of field defined by the objective lens and maintain light throughput to permit the camera to capture the image representative of the biological sample within the extended depth of field.