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Stress-testing the relationship between T cell receptor/peptide-MHC affinity and cross-reactivity using peptide velcro [Immunology and Inflammation] (2018)

Marvin H. Gee, Leah V. Sibener, Michael E. Birnbaum, Kevin M. Jude, Xinbo Yang, Ricardo A. Fernandes, Juan L. Mendoza, Caleb R. Glassman, K. Christopher Garcia

National Academy of Sciences

In: PNAS - Proceedings of the National Academy of Sciences

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Publication Date: 2018-08-01

Description: T cell receptors (TCRs) bind to peptide-major histocompatibility complex (pMHC) with low affinity (Kd ∼ μM), which is generally assumed to facilitate cross-reactive TCR “scanning” of ligands. To understand the relationship between TCR/pMHC affinity and cross-reactivity, we sought to engineer an additional weak interaction, termed “velcro,” between the TCR and...

Print ISSN: 0027-8424

Electronic ISSN: 1091-6490

Topics: Biology , Medicine , Natural Sciences in General

Published by National Academy of Sciences

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Active laser ranging over planetary distances with millimeter accuracy (2013)

Chen, Yijiang ; Birnbaum, Kevin M. ; Hemmati, Hamid

American Institute of Physics

In: Applied Physics Letters. 2013; 102(24): 241107. Published 2013 Jun 17. doi: 10.1063/1.4810906.

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Publication Date: 2013-06-17

Print ISSN: 0003-6951

Electronic ISSN: 1077-3118

Topics: Physics

Published by American Institute of Physics

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The Dolinar Receiver in an Information Theoretic Framework (2011)

Birnbaum, Kevin M. ; Erkmen, Baris I. ; Moision, Bruce E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Optical communication at the quantum limit requires that measurements on the optical field be maximally informative, but devising physical measurements that accomplish this objective has proven challenging. The Dolinar receiver exemplifies a rare instance of success in distinguishing between two coherent states: an adaptive local oscillator is mixed with the signal prior to photodetection, which yields an error probability that meets the Helstrom lower bound with equality. Here we apply the same local-oscillator-based architecture with aninformation-theoretic optimization criterion. We begin with analysis of this receiver in a general framework for an arbitrary coherent-state modulation alphabet, and then we concentrate on two relevant examples. First, we study a binary antipodal alphabet and show that the Dolinar receiver's feedback function not only minimizes the probability of error, but also maximizes the mutual information. Next, we study ternary modulation consistingof antipodal coherent states and the vacuum state. We derive an analytic expression for a near-optimal local oscillator feedback function, and, via simulation, we determine its photon information efficiency (PIE). We provide the PIE versus dimensional information efficiency (DIE) trade-off curve and show that this modulation and the our receiver combination performs universally better than (generalized) on-off keying plus photoncounting, although, the advantage asymptotically vanishes as the bits-per-photon diverges towards infinity.

Keywords: Optics; Communications and Radar; Cybernetics, Artificial Intelligence and Robotics

Type: SPIE Optics and Photonics 2011; Aug 21, 2011 - Aug 25, 2011; San Diego, CA; United States

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Approaching the Ultimate Limits of Communication Efficiency with a Photon-Counting Detector (2012)

Erkmen, Baris ; Moision, Bruce ; Dolinar, Samuel J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Coherent states achieve the Holevo capacity of a pure-loss channel when paired with an optimal measurement, but a physical realization of this measurement is as of yet unknown, and it is also likely to be of high complexity. In this paper, we focus on the photon-counting measurement and study the photon and dimensional efficiencies attainable with modulations over classical- and nonclassical-state alphabets. We first review the state-of-the-art coherent on-off-keying (OOK) with a photoncounting measurement, illustrating its asymptotic inefficiency relative to the Holevo limit. We show that a commonly made Poisson approximation in thermal noise leads to unbounded photon information efficiencies, violating the conjectured Holevo limit. We analyze two binary-modulation architectures that improve upon the dimensional versus photon efficiency tradeoff achievable with conventional OOK. We show that at high photon efficiency these architectures achieve an efficiency tradeoff that differs from the best possible tradeoff--determined by the Holevo capacity--by only a constant factor. The first architecture we analyze is a coherent-state transmitter that relies on feedback from the receiver to control the transmitted energy. The second architecture uses a single-photon number-state source.

Keywords: Communications and Radar

Type: IEEE International Symposium on Information Theory (ISIT''12); Jul 01, 2012 - Jul 06, 2012; Cambridge, MA; United States

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On Approaching the Ultimate Limits of Communication Using a Photon-Counting Detector (2012)

Birnbaum, Kevin M. ; Erkmen, Baris I. ; Moision, Bruce E. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: Coherent states achieve the Holevo capacity of a pure-loss channel when paired with an optimal measurement, but a physical realization of this measurement scheme is as of yet unknown, and it is also likely to be of high complexity. In this paper, we focus on the photon-counting measurement and study the photon and dimensional efficiencies attainable with modulations over classical- and nonclassical-state alphabets. We analyze two binary modulation architectures that improve upon the dimensional versus photon efficiency tradeoff achievable with the state-of-the-art coherent-state on-off keying modulation. We show that at high photon efficiency these architectures achieve an efficiency tradeoff that differs from the best possible tradeoff--determined by the Holevo capacity--by only a constant factor. The first architecture we analyze is a coherent-state transmitter that relies on feedback from the receiver to control the transmitted energy. The second architecture uses a single-photon number-state source.

Keywords: Communications and Radar

Type: SPIE Photonics West; Jan 21, 2012 - Jan 26, 2012; San Francisco, CA; United States

Format: text

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Limits on Achievable Dimensional and Photon Efficiencies with Intensity-Modulation and Photon-Counting Due to Non-Ideal Photon-Counter Behavior (2012)

Dolinar, Samuel J. ; Moision, Bruce ; Erkmen, Baris I. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: An ideal intensity-modulated photon-counting channel can achieve unbounded photon information efficiencies (PIEs). However, a number of limitations of a physical system limit the practically achievable PIE. In this paper, we discuss several of these limitations and illustrate their impact on the channel. We show that, for the Poisson channel, noise does not strictly bound PIE, although there is an effective limit, as the dimensional information efficiency goes as e[overline] e PIE beyond a threshold PIE. Since the Holevo limit is bounded in the presence of noise, this illustrates that the Poisson approximation is invalid at large PIE for any number of noise modes. We show that a finite transmitter extinction ratio bounds the achievable PIE to a maximum that is logarithmic in the extinction ratio. We show how detector jitter limits the ability to mitigate noise in the PPM signaling framework. We illustrate a method to model detector blocking when the number of detectors is large, and illustrate mitigation of blocking with spatial spreading and altering. Finally, we illustrate the design of a high photon efficiency system using state-of-the-art photo-detectors and taking all these effects into account.

Keywords: Optics

Type: SPIE Photonics West; Jan 21, 2012 - Jan 26, 2012; San Francisco, CA; United States

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Electro-Optic Time-to-Space Converter for Optical Detector Jitter Mitigation (2013)

Birnbaum, Kevin ; Farr, William

In: CASI

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Publication Date: 2019-08-13

Description: A common problem in optical detection is determining the arrival time of a weak optical pulse that may comprise only one to a few photons. Currently, this problem is solved by using a photodetector to convert the optical signal to an electronic signal. The timing of the electrical signal is used to infer the timing of the optical pulse, but error is introduced by random delay between the absorption of the optical pulse and the creation of the electrical one. To eliminate this error, a time-to-space converter separates a sequence of optical pulses and sends them to different photodetectors, depending on their arrival time. The random delay, called jitter, is at least 20 picoseconds for the best detectors capable of detecting the weakest optical pulses, a single photon, and can be as great as 500 picoseconds. This limits the resolution with which the timing of the optical pulse can be measured. The time-to-space converter overcomes this limitation. Generally, the time-to-space converter imparts a time-dependent momentum shift to the incoming optical pulses, followed by an optical system that separates photons of different momenta. As an example, an electro-optic phase modulator can be used to apply longitudinal momentum changes (frequency changes) that vary in time, followed by an optical spectrometer (such as a diffraction grating), which separates photons with different momenta into different paths and directs them to impinge upon an array of photodetectors. The pulse arrival time is then inferred by measuring which photodetector receives the pulse. The use of a time-to-space converter mitigates detector jitter and improves the resolution with which the timing of an optical pulse is determined. Also, the application of the converter enables the demodulation of a pulse position modulated signal (PPM) at higher bandwidths than using previous photodetector technology. This allows the creation of a receiver for a communication system with high bandwidth and high bits/photon efficiency.

Keywords: Man/System Technology and Life Support

Type: NPO-45799 , NASA Tech Briefs, October 2013; 25

Format: application/pdf

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Field Demonstrations of Active Laser Ranging with Sub-mm Precision (2011)

Birnbaum, Kevin M. ; Chen, Yijiang ; Hemmati, Hamid

In: Other Sources

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Publication Date: 2019-07-13

Description: Precision ranging between planets will provide valuable information for scientific studies of the solar system and fundamental physics. Current passive ranging techniques using retro-reflectors are limited to the Earth-Moon distance due to the 1/R? losses. We report on a laboratory realization and field implementation of active laser ranging in real-time with two terminals, emulating interplanetary distance. Sub-millimeter accuracy is demonstrated.

Keywords: Lasers and Masers

Type: SPIE Photonics West; Jan 24, 2011; San Francisco, CA; United States

Format: text

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A Post-Processing Receiver for the Lunar Laser Communications Demonstration Project (2013)

Quirk, Kevin ; Cheng, Michael ; Srinivasan, Meera ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: The Lunar Laser Communications Demonstration Project undertaken by MIT Lincoln Laboratory and NASA's Goddard Space Flight Center will demonstrate high-rate laser communications from lunar orbit to the Earth. NASA's Jet Propulsion Laboratory is developing a backup ground station supporting a data rate of 39 Mbps that is based on a non-real-time software post-processing receiver architecture. This approach entails processing sample-rate-limited data without feedback in the presence high uncertainty in downlink clock characteristics under low signal flux conditions. In this paper we present a receiver concept that addresses these challenges with descriptions of the photodetector assembly, sample acquisition and recording platform, and signal processing approach. End-to-end coded simulation and laboratory data analysis results are presented that validate the receiver conceptual design.

Keywords: Communications and Radar

Type: SPIE Photonics West; Feb 02, 2013 - Feb 07, 2013; San Francisco, CA; United States

Format: text

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The Dolinar Receiver in an Information Theoretic Framework (2011)

Moision, Bruce E. ; Birnbaum, Kevin M. ; Dolinar, Samuel J. ; [et al.]

In: Other Sources

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Publication Date: 2019-07-13

Description: No abstract available

Keywords: Communications and Radar

Type: SPIE Optics + Photonics 2011; Aug 20, 2011 - Aug 25, 2011; San Diego, CA; United States

Format: text

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