Rebecca M. Holmes scite author profile

Rebecca M. Holmes

5Publications

45Citation Statements Received

17Citation Statements Given

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Affiliations

Los Alamos National Laboratory, University of Illinois Urbana-Champaign, Boeing (United States)

Publications

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Measuring temporal summation in visual detection with a single-photon source

et al. 2017

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Temporal summation is an important feature of the visual system which combines visual signals that arrive at different times. Previous research estimated complete summation to last for 100ms for stimuli judged "just detectable." We measured the full range of temporal summation for much weaker stimuli using a new paradigm and a novel light source, developed in the field of quantum optics for generating small numbers of photons with precise timing characteristics and reduced variance in photon number. Dark-adapted participants judged whether a light was presented to the left or right of their fixation in each trial. In Experiment 1, stimuli contained a stream of photons delivered at a constant rate while the duration was systematically varied. Accuracy should increase with duration as long as the later photons can be integrated with the proceeding ones into a single signal. The temporal integration window was estimated as the point that performance no longer improved, and was found to be 650ms on average. In Experiment 2, the duration of the visual stimuli was kept short (100ms or <30ms) while the number of photons was varied to explore the efficiency of summation over the integration window compared to Experiment 1. There was some indication that temporal summation remains efficient over the integration window, although there is variation between individuals. The relatively long integration window measured in this study may be relevant to studies of the absolute visual threshold, i.e., tests of single-photon vision, where "single" photons should be separated by greater than the integration window to avoid summation.

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Extremely Low Resource Optical Identifier: A License Plate for Your Satellite

Palmer

Holmes

2018

Journal of Spacecraft and Rockets

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Testing the Limits of Human Vision with Single Photons

Holmes

Christensen

Wang

et al. 2015

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Progress on ELROI satellite license plate flight prototypes

Holmes

Gill

Harris

et al. 2018

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The Extremely Low-Resource Optical Identifier (ELROI) beacon is a concept for a milliwatt optical "license plate" that can provide unique ID numbers for everything that goes into space. Using photon counting to enable extreme background rejection in real time, the ID number can be uniquely identified from the ground in a few minutes, even if the ground station detects only a few photons per second. The ELROI concept has been validated in long-range ground tests, and orbital prototypes are scheduled for launch in 2018 and beyond. We discuss the design and signal characteristics of these prototypes, including a PC-104 form factor unit which was integrated into a CubeSat and is currently scheduled to launch in May 2018, and basic requirements on ground stations for observing them. We encourage others to consider observing our test flights.

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Determining the Lower Limit of Human Vision Using a Single-Photon Source

Holmes

Christensen

Street

et al. 2014

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Rebecca M. Holmes

Measuring temporal summation in visual detection with a single-photon source

Extremely Low Resource Optical Identifier: A License Plate for Your Satellite

Testing the Limits of Human Vision with Single Photons

Progress on ELROI satellite license plate flight prototypes

Determining the Lower Limit of Human Vision Using a Single-Photon Source

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