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A First Order Wavefront Estimation Algorithm for P1640 Calibrator (2012)

Soummer, R. ; Zimmerman, N. ; Roberts, J. ; [et al.]

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Publication Date: 2019-07-13

Description: P1640 calibrator is a wavefront sensor working with the P1640 coronagraph and the Palomar 3000 actuator adaptive optics system (P3K) at the Palomar 200 inch Hale telescope. It measures the wavefront by interfering post-coronagraph light with a reference beam formed by low-pass filtering the blocked light from the coronagraph focal plane mask. The P1640 instrument has a similar architecture to the Gemini Planet Imager (GPI) and its performance is currently limited by the quasi-static speckles due to non-common path wavefront errors, which comes from the non-common path for the light to arrive at the AO wavefront sensor and the coronagraph mask. By measuring the wavefront after the coronagraph mask, the non-common path wavefront error can be estimated and corrected by feeding back the error signal to the deformable mirror (DM) of the P3K AO system. Here, we present a first order wavefront estimation algorithm and an instrument calibration scheme used in experiments done recently at Palomar observatory. We calibrate the P1640 calibrator by measuring its responses to poking DM actuators with a sparse checkerboard pattern at different amplitudes. The calibration yields a complex normalization factor for wavefront estimation and establishes the registration of the DM actuators at the pupil camera of the P1640 calibrator, necessary for wavefront correction. Improvement of imaging quality after feeding back the wavefront correction to the AO system demonstrated the efficacy of the algorithm.

Keywords: Astronomy

Type: 2012 Astronomical Telescopes and Instrumentation; Jul 01, 2012 - Jul 06, 2012; Amsterdam; Netherlands

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Overview of Optical Ground Station 1 of the NASA Space Communications and Navigation Program (2016)

Piazzolla, S. ; Wu, J. ; Rogalin, R. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Optical Ground Station 1 (OGS1) is the first of a new breed of dedicated ground terminals to support NASAs developing space-based optical communications infrastructure. It is based at NASAs Optical Communications Telescope Laboratory (OCTL) at the Table Mountain Observatory near Wrightwood, CA. The system will serve as the primary ground station for NASAs Laser Communications Relay Demonstration (LCRD) experiment. This paper presents an overview of the OCTL telescope facility, the OGS1 ground-based optical communications systems, and the networking and control infrastructure currently under development. The OGS1 laser safety systems and atmospheric monitoring systems are also briefly described.

Keywords: Communications and Radar; Ground Support Systems and Facilities (Space)

Type: JPL-CL-16-0555 , SPIE Free Space Laser Communication and Atmospheric Propagation XXVIII; Feb 15, 2016 - Feb 16, 2016; San Francisco, CA; United States

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Development of the Optical Communications Telescope Laboratory: A Laser Communications Relay Demonstration Ground Station (2012)

Antsos, D. ; Roberts, L. C. Jr., ; Croonquist, A. P. ; [et al.]

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Publication Date: 2019-07-13

Description: The Laser Communications Relay Demonstration (LCRD) project will demonstrate high bandwidth space to ground bi-directional optical communications links between a geosynchronous satellite and two LCRD optical ground stations located in the southwestern United States. The project plans to operate for two years with a possible extension to five. Objectives of the demonstration include the development of operational strategies to prototype optical link and relay services for the next generation tracking and data relay satellites. Key technologies to be demonstrated include adaptive optics to correct for clear air turbulence-induced wave front aberrations on the downlink, and advanced networking concepts for assured and automated data delivery. Expanded link availability will be demonstrated by supporting operations at small sun-Earth-probe angles. Planned optical modulation formats support future concepts of near-Earth satellite user services to a maximum of 1.244 Gb/s differential phase shift keying modulation and pulse position modulations formats for deep space links at data rates up to 311 Mb/s. Atmospheric monitoring instruments that will characterize the optical channel during the link include a sun photometer to measure atmospheric transmittance, a solar scintillometer, and a cloud camera to measure the line of sight cloud cover. This paper describes the planned development of the JPL optical ground station.

Keywords: Optics; Ground Support Systems and Facilities (Space)

Type: IEEE International Conference on Services Oriented Computing (ICSOC 2012); Oct 09, 2012 - Oct 12, 2012; Corsica; France

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Development of the Optical Communications Telescope Laboratory: a Laser Communications Relay Demonstration Ground Station (2012)

Roberts, L. C. Jr., ; Antsos, D. ; Piazzolla, S. ; [et al.]

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Optics

Type: International Conference on Service Oriented Computing; Nov 12, 2012 - Nov 15, 2012; Shanghai; China

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Estimate Low and High Order Wavefront Using P1640 Calibrator Measurements (2013)

Wallace, K. ; Tang, H. ; Hillenbrand, L. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: P1640 high contrast imaging system on the Palomar 200 inch Telescope consists of an apodized-pupil Lyot coronagraph, the PALM-3000 adaptive optics (P3K-AO), and P1640 Calibrator (CAL). Science images are recorded by an integral field spectrograph covering J-H bands for detecting and characterizing stellar companions. With aberrations from atmosphere corrected by the P3K-AO, instrument performance is limited mainly by the quasi-static speckles due to noncommon path wavefront aberrations for the light to propagate to the P3K-AO wavefront sensor and to the coronagraph mask. The non-common path wavefront aberrations are sensed by CAL, which measures the post-coronagraph E-field using interferometry, and can be effectively corrected by offsetting the P3K-AO deformable mirror target position accordingly. Previously, we have demonstrated using CAL measurements to correct high order wavefront aberrations, which is directly connected to the static speckles in the image plane. Low order wavefront, on the other hand, usually of larger amplitudes, causes light to leak through the coronagraph making the whole image plane brighter. Knowledge error in low order wavefront aberrations can also affect the estimation of the high order wavefront. Even though, CAL is designed to sense efficiently high order wavefront aberrations, the low order wavefront front can be inferred with less sensitivity. Here, we describe our method for estimating both low and high order wavefront aberrations using CAL measurements by propagating the post-coronagraph E-field to a pupil before the coronagraph. We present the results from applying this method to both simulated and experiment data.

Keywords: Astronomy

Type: SPIE Optics and Photonics; Aug 25, 2013 - Aug 29, 2013; San Diego, CA; United States

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