Monolithic Gradient Index Phase Plate Array

Award Information

Agency: National Aeronautics and Space Administration

Branch: N/A

Contract: NNX14CG41P

Agency Tracking Number: 145087

Amount: $124,998.00

Phase: Phase I

Program: SBIR

Solicitation Topic Code: S2.04

Solicitation Number: N/A

Timeline

Solicitation Year: 2014

Award Year: 2014

Award Start Date (Proposal Award Date): 2014-06-20

Award End Date (Contract End Date): 2014-12-19

Small Business Information

VOXTEL, INC.

15985 Northwest Schendel Avenue, Suite 200

Beaverton, OR 97006-6703

United States

DUNS: 124348652

HUBZone Owned: No

Woman Owned: No

Socially and Economically Disadvantaged: No

Principal Investigator

Name: Charles Dupuy
Title: Senior Scientist
Phone: (971) 223-5646
Email: charles@voxtel-inc.com

Business Contact

Name: Debra Ozuna
Title: Business Official
Phone: (971) 223-5646
Email: debrao@voxtel-inc.com

Research Institution

Name: Stub

Abstract

The "piston errors" and aberrations of the mirror segments used in large telescopes, are typically measured with on-board optical instruments, usually a dispersed Hartman sensor (DHS) and/or dispersed fringe sensor (DFS). Calibrating and testing of the wavefront sensors are typically performed using custom-built fused silica phase plate arrays. The manufacture and assembly of each custom phase plate array is time-intensive and expensive.

Proposed is a gradient index (GI) phase plate array (PPA), which integrates the corrections of the DHS, an intermediate smoothing phase plate, and the DFS. This reduces the number of phase plates required, from three to one, and allows for the PPA t be used in the pupil plane, allowing for more precise calibration. The monolithic construction of the innovation significantly reduces development time and cost.

* Information listed above is at the time of submission. *

You are here

Monolithic Gradient Index Phase Plate Array