Relevant bibliographies by topics / Deep space applications

Contents

  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'Deep space applications'

Author: Grafiati
Published: 4 June 2021
Last updated: 14 February 2022

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Journal articles on the topic "Deep space applications"

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Patterson, R. L., A. Hammoud, J. E. Dickman, S. Gerber, M. Elbuluk, and E. Overton. "Electronics for deep space cryogenic applications." Journal de Physique IV (Proceedings) 12, no. 3 (2002): 207–10. http://dx.doi.org/10.1051/jp420020068.

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Jachna, Timothy J., Y. Santo, and N. Schadewitz. "Deep Space." International Journal of Architectural Computing 5, no. 1 (2007): 145–60. http://dx.doi.org/10.1260/147807707780913010.

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Subramanyam, A. V. G., D. Siva Reddy, V. K. Hariharan, V. V. Srinivasan, and Ajay Chakrabarty. "High Power Combline Filter for Deep Space Applications." International Journal of Microwave Science and Technology 2014 (September 14, 2014): 1–11. http://dx.doi.org/10.1155/2014/396494.

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An S-band, compact, high power filter, for use in the Mars Orbiter Mission (MOM) of Indian Space Research Organization (ISRO), has been designed and tested for multipaction. The telemetry, tracking, and commanding (TT&C) transponder of MOM is required to handle continuous RF power of 200 W in the telemetry path besides simultaneously maintaining an isolation of greater than 145 dBc to its sensitive telecommand path. This is accomplished with the help of a complex diplexer, requiring high power, high rejection transmit path filter, and a low power receive path filter. To reduce the complexity in the multipaction-free design and testing, the transmit path filter of the diplexer is split into a low rejection filter integral to the diplexer and an external high rejection filter. This paper highlights the design and space qualification phases of this high rejection filter. Multipaction test results with 6 dB margin are also presented. Major concerns of this filter design are isolation, insertion loss, and multipaction. Mission performance of the on-board filter is normal.
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Hemmati, Hamid, Abhijit Biswas, and Ivan B. Djordjevic. "Deep-Space Optical Communications: Future Perspectives and Applications." Proceedings of the IEEE 99, no. 11 (2011): 2020–39. http://dx.doi.org/10.1109/jproc.2011.2160609.

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Strangman, Gary E., Aenor Sawyer, Kristin M. Fabre, et al. "Deep-space applications for point-of-care technologies." Current Opinion in Biomedical Engineering 11 (September 2019): 45–50. http://dx.doi.org/10.1016/j.cobme.2019.08.014.

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Chaloner, C. P., B. A. H. Olivier, and J. Howieson. "Advanced Microsatellite Mission—deep space applications and constraints." Acta Astronautica 59, no. 8-11 (2006): 817–22. http://dx.doi.org/10.1016/j.actaastro.2005.07.062.

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Yoshimori, Atsushi, and Jürgen Bajorath. "Deep SAR matrix: SAR matrix expansion for advanced analog design using deep learning architectures." Future Drug Discovery 2, no. 2 (2020): FDD36. http://dx.doi.org/10.4155/fdd-2020-0005.

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Aim: Enhancing the structure–activity relationship matrix (SARM) methodology through integration of deep learning and expansion of chemical space coverage. Background: Analog design is of critical importance for medicinal chemistry. The SARM approach, which combines systematic structural organization of compound series with analog design, is put into scientific context. Methodology: The new DeepSARM concept is introduced. The architecture of SARM-integrated deep generative models is detailed and the workflow for advanced analog design and matrix expansion described. Exemplary application: The DeepSARM approach is applied to design analogs of kinase inhibitors taking kinome-wide chemical space into account. Future perspective: Practical applications of DeepSARM will be a major focal point. Different applications are discussed. New computational features will be added to prioritize virtual candidate compounds.
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Grześ, Paweł, Maria Michalska, and Jacek Świderski. "Gain-switched seed laser for Deep Space communication applications." Photonics Letters of Poland 10, no. 2 (2018): 45. http://dx.doi.org/10.4302/plp.v10i2.818.

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Deep Space (DS) communication plays an important role in space exploration programs, especially in interplanetary flights projects. To resolve limitations of a well-known microwave link, an optical communication is considered. In the article a gain-switched seed laser for high power transmitter in a Master Oscillator Power Amplifier (MOPA) architecture is presented. This optical signal source is able to generate picosecond pulses on demand and is suitable for high speed data link over a long range. The laser is dedicated to the pulse position modulation (PPM) scheme for low power consuming, high capacity and energy efficient optical communication. Full Text: PDF ReferencesH. Hemmati, Deep Space Optical Communications (Jet Propulsion Laboratory 2005), John Wiley & Sons, 2006. CrossRef T. Tolker-Nielsen and G. Oppenhauser, “In-Orbit Test Result of an Operational Intersatellite Link between ARTEMIS and SPOT 4,” FreeSpace Laser Communication Technologies XIV, Proceedings of SPIE, vol. 4639, pp. 1–15, San Jose, California, January 2002. CrossRef D. M. Boroson, et al., "Overview and results of the Lunar Laser Communication Demonstration", Proc SPIE 8971, 89710S (2014). CrossRef D. M. Boroson, A. Biswas, B. L. Edwards, "MLCD: overview of NASA's Mars laser communications demonstration system", P. Soc. Photo-Opt. Ins. 5338 (2004). CrossRef H. Hemmati, A. Biswas, I. B. Djordjevic, "Deep-Space Optical Communications: Future Perspectives and Applications", Proc. of the IEEE 99.11, (2011). CrossRef H. Kaushal, G. Kaddoum, "Optical Communication in Space: Challenges and Mitigation Techniques", IEEE Commun Surv Tut. 19.1, 57 (2017). CrossRef B. Moision, J. Hamkins, M. Cheng, "Deep-space optical communications downlink budget: modulation and coding", IPN Prog. Rep. 42.154, 1 (2005). DirectLink
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Schulze, Ron, Robert E. Wallis, Robert K. Stilwell, and Weilun Cheng. "Enabling Antenna Systems for Extreme Deep-Space Mission Applications." Proceedings of the IEEE 95, no. 10 (2007): 1976–85. http://dx.doi.org/10.1109/jproc.2007.905068.

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Chen, Po-Ting, Bonan Zhou, Jason L. Speyer, David S. Bayard, Walid A. Majid, and Lincoln J. Wood. "Aspects of Pulsar Navigation for Deep Space Mission Applications." Journal of the Astronautical Sciences 67, no. 2 (2020): 704–39. http://dx.doi.org/10.1007/s40295-019-00209-9.

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Dissertations / Theses on the topic "Deep space applications"

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Wittrock, Jason M. "Free-Electron Laser (FEL) utilization in space applications (ship-borne pointing accuracy, deep-space communications, and orbital debris tracking)." Monterey, California. Naval Postgraduate School, 2011. http://hdl.handle.net/10945/10710.

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The U.S. Navy is currently conducting research which will support the production of a MW-class free-electron laser (FEL). The Navy's end-state goal is to design and implement a defense system capable of destroying a fast-flying, anti-ship cruise missile (ASCM) target. To this end, the necessity of ensuring accurate pointing control of the beam is required. The first part of this thesis focuses on the U.S. Navy's desired end-state and investigates the ability of feedback and feed-forward control methods to provide improved pointing accuracy to a beam director mounted on a naval vessel similar in size to that of a Ticonderoga-class cruiser while traversing through various sea-states. The second part of this thesis examines the feasibility of employing the FEL as a means of deep-space (Mars and beyond) communication and orbital debris removal and tracking of objects in low-earth orbit (LEO).
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Granger, Matthew G. "A Combined Framework for Control and Fault Monitoring of a DC Microgrid for Deep Space Applications." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case1607694725020458.

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Jhaidri, Mohamed Amine. "Techniques de synchronisation à très faible SNR pour des applications satellites." Thesis, Ecole nationale supérieure Mines-Télécom Atlantique Bretagne Pays de la Loire, 2017. http://www.theses.fr/2017IMTA0038/document.

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Les transmissions numériques par satellite sont largement utilisées dans plusieurs domaines allant des applications commerciales en orbites terrestres aux missions d'exploration scientifiques en espace lointain (Deep Space). Ces systèmes de transmission fonctionnent sur des très grandes distances et ils disposent des ressources énergétiques très limitées. Cela se traduit par un très faible rapport signal à bruit au niveau de la station de réception terrestre. Une possibilité d'établir une liaison fiable dans ces conditions très défavorables, réside dans l'utilisation de codes correcteurs d'erreurs puissants tels que les Turbo codes et le LDPC. Cependant, les gains de codage sont conditionnés par le bon fonctionnement des étages de la démodulation cohérente en amont, notamment l'étage de synchronisation. L'opération de synchronisation consiste à estimer et compenser le décalage en phase et en fréquence entre le signal reçu et l'oscillateur local du récepteur. Ces décalages sont généralement provoqués par des imperfections matérielles et le phénomène d'effet Doppler. A très faible rapport signal à bruit, les systèmes de synchronisation actuels se trouvent limités et incapables d'assurer les performances requises. Notre objectif est de fiabiliser l'étage de synchronisation du récepteur dans des conditions très difficiles de faible rapport signal sur bruit, d'effet Doppler conséquent avec prise en compte d'un phénomène d'accélération (Doppler rate) et d'une transmission sans pilote. Cette thèse CIFRE traite du problème de la synchronisation porteuse pour la voie descendante d'une transmission Deep Space. Après la réalisation d'une étude de l'état de l'art des techniques de synchronisation, nous avons retenu les boucles à verrouillage de phase (PLL: Phase Locked Loop). Dans un contexte industriel, les PLL offrent le meilleur compromis entre complexité d'implémentation et performances. Plusieurs détecteurs de phase basés le critère du maximum de vraisemblance ont été considérés et modélisés par leurs courbes caractéristiques. En se basant sur les modèles équivalents, nous avons développé une nouvelle étude de la phase d'acquisition non-linéaire d'une PLL du deuxième ordre avec un détecteur de phase semi-sinusoïdal. La deuxième partie de la thèse a été consacrée à l'étude des techniques de combinaison d'antennes. Ces méthodes visent à exploiter la diversité spatiale et améliorer le bilan de liaison de la chaîne de transmission tout en offrant une flexibilité de conception ainsi qu'une réduction considérable du coût d'installation. A l'issue de cette partie, nous avons proposé un nouveau schéma de combinaison d'antenne qui améliore le seuil de fonctionnement des systèmes existants<br>In deep space communication systems, the long distance between the spacecraft and the ground station along with the limited capacity of the on-board power generator result a very low signal to noise ratio (SNR). However, such transmission still possible by using near Shannon limit error correction codes (Turbo code and LDPC code). Nevertheless, to take advantage of this coding gain, the coherent demodulation is mandatory, and the carrier phase synchronization must be reliable at more restrictive SNR. At very low SNR, current synchronization systems are limited and unable to provide the required performances. Our goal is to improve the reliability of the receiver synchronization stage under very difficult conditions of a very low SNR, a variable Doppler effect (Doppler rate) and a blind transmission. This thesis deals with the problem of carrier phase synchronization for the downlink of a Deep Space transmission. After the study of the existing solutions, we selected the phase locked loop (Phase Locked Loop: PLL). In an industrial context, PLL offers the best trade-off between complexity and performance. Several phase detectors based on the maximum likelihood criterion were considered and characterized by their S-curves. Based on the equivalent models, we have developed a new study of the non-linear acquisition phase of a second-order PLL with a semi-sinusoidal phase error detector. The second part of the thesis was dedicated to the antennas combining techniques. These methods aim to improve the link budget of the transmission and offer more flexibility. At the end of this part, we proposed a new antennas combining scheme that improves the operating threshold of existing systems
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Kabir, Md Faisal. "Application of Deep Learning in Deep Space Wireless Signal Identification for Intelligent Channel Sensing." University of Toledo / OhioLINK, 2020. http://rave.ohiolink.edu/etdc/view?acc_num=toledo1588886429314726.

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Martineau, Maxime. "Deep learning onto graph space : application to image-based insect recognition." Thesis, Tours, 2019. http://www.theses.fr/2019TOUR4024.

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Le but de cette thèse est d'étudier la reconnaissance d'insectes comme un problème de reconnaissance des formes basé images. Bien que ce problème ait été étudié en profondeur au long des trois dernières décennies, un aspect reste selon nous toujours à expérimenter à ce jour : les approches profondes (deep learning). À cet effet, la première contribution de cette thèse consiste à déterminer la faisabilité de l'application des réseaux de neurones convolutifs profonds (CNN) au problème de reconnaissance d'images d'insectes. Les limitations majeures ont les suivantes: les images sont très rares et les cardinalités de classes sont hautement déséquilibrées. Pour atténuer ces limitations, le transfer learning et la pondération de la fonction de coûts ont été employés. Des méthodes basées graphes sont également proposées et testées. La première consiste en la conception d'un classificateur de graphes de type perceptron. Le second travail basé sur les graphes de cette thèse est la définition d'un opérateur de convolution pour construire un modèle de réseaux de neurones convolutifs s'appliquant sur les graphes (GCNN.) Le dernier chapitre de la thèse s'applique à utiliser les méthodes mentionnées précédemment à des problèmes de reconnaissance d'images d'insectes. Deux bases d'images sont ici proposées. Là première est constituée d'images prises en laboratoire sur arrière-plan constant. La seconde base est issue de la base ImageNet. Cette base est composée d'images prises en contexte naturel. Les CNN entrainés avec transfer learning sont les plus performants sur ces bases d'images<br>The goal of this thesis is to investigate insect recognition as an image-based pattern recognition problem. Although this problem has been extensively studied along the previous three decades, an element is to the best of our knowledge still to be experimented as of 2017: deep approaches. Therefore, a contribution is about determining to what extent deep convolutional neural networks (CNNs) can be applied to image-based insect recognition. Graph-based representations and methods have also been tested. Two attempts are presented: The former consists in designing a graph-perceptron classifier and the latter graph-based work in this thesis is on defining convolution on graphs to build graph convolutional neural networks. The last chapter of the thesis deals with applying most of the aforementioned methods to insect image recognition problems. Two datasets are proposed. The first one consists of lab-based images with constant background. The second one is generated by taking a ImageNet subset. This set is composed of field-based images. CNNs with transfer learning are the most successful method applied on these datasets
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Emenonye, Don-Roberts Ugochukwu. "Application of Machine Learning to Multi Antenna Transmission and Machine Type Resource Allocation." Thesis, Virginia Tech, 2020. http://hdl.handle.net/10919/99956.

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Wireless communication systems is a well-researched area in electrical engineering that has continually evolved over the past decades. This constant evolution and development have led to well-formulated theoretical baselines in terms of reliability and efficiency. However, most communication baselines are derived by splitting the baseband communications into a series of modular blocks like modulation, coding, channel estimation, and orthogonal frequency modulation. Subsequently, these blocks are independently optimized. Although this has led to a very efficient and reliable process, a theoretical verification of the optimality of this design process is not feasible due to the complexities of each individual block. In this work, we propose two modifications to these conventional wireless systems. First, with the goal of designing better space-time block codes for improved reliability, we propose to redesign the transmit and receive blocks of the physical layer. We replace a portion of the transmit chain - from modulation to antenna mapping with a neural network. Similarly, the receiver/decoder is also replaced with a neural network. In other words, the first part of this work focuses on jointly optimizing the transmit and receive blocks to produce a set of space-time codes that are resilient to Rayleigh fading channels. We compare our results to the conventional orthogonal space-time block codes for multiple antenna configurations. The second part of this work investigates the possibility of designing a distributed multiagent reinforcement learning-based multi-access algorithm for machine type communication. This work recognizes that cellular networks are being proposed as a solution for the connectivity of machine type devices (MTDs) and one of the most crucial aspects of scheduling in cellular connectivity is the random access procedure. The random access process is used by conventional cellular users to receive an allocation for the uplink transmissions. This process usually requires six resource blocks. It is efficient for cellular users to perform this process because transmission of cellular data usually requires more than six resource blocks. Hence, it is relatively efficient to perform the random access process in order to establish a connection. Moreover, as long as cellular users maintain synchronization, they do not have to undertake the random access process every time they have data to transmit. They can maintain a connection with the base station through discontinuous reception. On the other hand, the random access process is unsuitable for MTDs because MTDs usually have small-sized packets. Hence, performing the random access process to transmit such small-sized packets is highly inefficient. Also, most MTDs are power constrained, thus they turn off when they have no data to transmit. This means that they lose their connection and can't maintain any form of discontinuous reception. Hence, they perform the random process each time they have data to transmit. Due to these observations, explicit scheduling is undesirable for MTC. To overcome these challenges, we propose bypassing the entire scheduling process by using a grant free resource allocation scheme. In this scheme, MTDs pseudo-randomly transmit their data in random access slots. Note that this results in the possibility of a large number of collisions during the random access slots. To alleviate the resulting congestion, we exploit a heterogeneous network and investigate the optimal MTD-BS association which minimizes the long term congestion experienced in the overall cellular network. Our results show that we can derive the optimal MTD-BS association when the number of MTDs is less than the total number of random access slots.<br>Master of Science<br>Wireless communication systems is a well researched area of engineering that has continually evolved over the past decades. This constant evolution and development has led to well formulated theoretical baselines in terms of reliability and efficiency. This two part thesis investigates the possibility of improving these wireless systems with machine learning. First, with the goal of designing more resilient codes for transmission, we propose to redesign the transmit and receive blocks of the physical layer. We focus on jointly optimizing the transmit and receive blocks to produce a set of transmit codes that are resilient to channel impairments. We compare our results to the current conventional codes for various transmit and receive antenna configuration. The second part of this work investigates the possibility of designing a distributed multi-access scheme for machine type devices. In this scheme, MTDs pseudo-randomly transmit their data by randomly selecting time slots. This results in the possibility of a large number of collisions occurring in the duration of these slots. To alleviate the resulting congestion, we employ a heterogeneous network and investigate the optimal MTD-BS association which minimizes the long term congestion experienced in the overall network. Our results show that we can derive the optimal MTD-BS algorithm when the number of MTDs is less than the total number of slots.
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Carbone, Marc A. Carbone. "Development of a Supervisory Tool for Fault Detection and Diagnosis of DC Electric Power Systems with the Application of Deep Space Vehicles." Case Western Reserve University School of Graduate Studies / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=case1601984256665471.

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Lazar, Václav. "Kalibrace experimentálního zařízení pro testování kosmických technologií." Master's thesis, Vysoké učení technické v Brně. Fakulta strojního inženýrství, 2019. http://www.nusl.cz/ntk/nusl-401523.

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Diplomová práce se zabývá možnosti kalibrace experimentálního testovacího zařízení. Zejména se věnuje návrhu termálního matematického modelu popisujícího tepelné procesy uvnitř zařízení v průběhu měření tepelné vodivosti vzorku. První část práce je věnována seznámení se s testovacím zařízením, jeho limity a principem měření. Popisuje řešení třetí verze testovací komory, společně s nezbytnými úpravami, provedenými za účelem zajištění předepsaných simulačních podmínek. Zmiňuje také potřebu a důvody kalibrace. Druhá část je především zaměřená na návrh kalibračních vzorků a termálního modelu. Uvádí definované požadavky a konečné vlastnosti vyrobených vzorků. Matematický model prezentuje postup výpočtu zjištěných tepelných ztrát a poukazuje na možnosti jejich zpřesnění. Testování kalibračních vzorků bylo provedeno na nově zprovozněné třetí verzi testovací komory. Naměřené výsledky poslouží k ladění termálního modelu, nezbytného k dokončení kalibračního procesu, který umožní přikročení k další fázi testování v experimentální komoře.
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Guy, Troy Lamar. "Analysis of Advanced Actinide-Fueled Energy Systems for Deep Space Propulsion Applications." 2009. http://hdl.handle.net/1969.1/ETD-TAMU-2009-12-7416.

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The present study is focused on evaluating higher actinides beyond uranium that are capable of supporting power and propulsion requirements in robotic deep space and interstellar exploration. The central technology in this thesis is based on utilizing advanced actinides for direct fission fragment energy conversion coupled with magnetic collimation. Critical fission configurations are explored which are based on fission fragment energy conversion utilizing a nano-scale layer of the metastable isotope 242mAm coated on carbon fibers. A 3-D computational model of the reactor core is developed and neutron properties are presented. Fission neutron yield, exceptionally high thermal fission cross sections, high fission fragment kinetic energy and relatively low radiological emission properties are identified as promising features of 242mAm as a fission fragment source. The isotopes 249Cf and 251Cf are found to be promising candidates for future studies. Conceptual system integration, deep space mission applicability and recommendations for future experimental development are introduced.
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Borel, Thomas. "Top-Contact Lateral Organic Photodetectors for Deep Ultraviolet Applications." Thesis, 2013. http://hdl.handle.net/10012/7827.

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Organic semiconductors are very attractive for thin film Organic Photodetectors (OPDs) since they possess a number of desirable attributes for optical sensing including high absorption coefficients over visible and ultraviolet wavelengths and compatibility with large-area deposition processes such as ink-jet, screen printing, and solution processing. OPDs, in general, utilize a vertical device architecture where the photoactive organic semiconductor layers are sandwiched between top and bottom electrodes that provide electrical contact. More recently, an interest in utilizing a lateral device architecture instead of the vertical one, has emerged. In this architecture, the two contacts are positioned on the two sides of the photoactive material with respect to the direction of the incoming signal, separated by a small gap. However, the factors governing lateral OPDs’ photo-response are still not well understood. In this thesis, we fabricate top-contact lateral OPDs using a thermal evaporation only fabrication process. We study the factors governing both the dark and photo currents of lateral OPDs. The effect of the wide gap between the two electrodes on the current-voltage characteristics is discussed and the role of space charge limited conduction is investigated. The contributions in the photoresponse of light scattering through the active layers as well as the back reflection of light at the metallic contacts are emphasized. The reproducibility over repeated operation cycles of both dark and photo currents values is explored. Exposure to light of the lateral OPD is found to lead to a significant increase in the dark current. The role of the conductivity enhancement in the channel due to light-induced trap filling is investigated. External quantum efficiency and detectivity estimates are given for deep ultraviolet lateral (DUV) OPDs. A comparison with vertical DUV OPDs performances is provided. Finally, the use of a phosphorescent sensitizer doped in the absorbing bottom layer to improve top-contact lateral OPDs efficiency is discussed.
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Books on the topic "Deep space applications"

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Mason, Lee S. Solar stirling for deep space applications. National Aeronautics and Space Administration, Glenn Research Center, 1999.

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Hamkins, Jon, and Marvin K. Simon, eds. Autonomous Software-Defined Radio Receivers for Deep Space Applications. John Wiley & Sons, Inc., 2006. http://dx.doi.org/10.1002/0470087803.

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Otoshi, Tommy Yasuo. Noise temperature theory and applications for deep space communications antenna systems. Artech House, 2008.

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Simon, Marvin K., Dennis Lee, Warren L. Martin, Haiping Tsou, and Tsun-Yee Yan. Bandwidth-Efficient Digital Modulation with Application to Deep Space Communications. John Wiley & Sons, Inc., 2003. http://dx.doi.org/10.1002/0471728500.

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Simon, Marvin K., Dennis Lee, Warren L. Martin, Haiping Tsou, and Tsun-Yee Yan. Bandwidth-Efficient Digital Modulation with Application to Deep Space Communications. John Wiley & Sons, Inc., 2003. http://dx.doi.org/10.1002/0471728500.

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L, Patterson R., and NASA Glenn Research Center, eds. Electronics for deep space cryogenic applications. 2002.

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(Editor), Jon Hamkins, Marvin K. Simon (Editor), and Joseph H. Yuen (Series Editor), eds. Autonomous Software-Defined Radio Receivers for Deep Space Applications (JPL Deep-Space Communications and Navigation Series). Wiley-Interscience, 2006.

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Simon, Marvin K., Joseph H. Yuen, and Jon Hamkins. Autonomous Software-Defined Radio Receivers for Deep Space Applications. Wiley & Sons, Incorporated, John, 2006.

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Simon, Marvin K., Joseph H. Yuen, and Jon Hamkins. Autonomous Software-Defined Radio Receivers for Deep Space Applications. Wiley & Sons, Incorporated, John, 2008.

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N, Hammoud Ahmad, Gerber Scott S, and Lewis Research Center, eds. Evaluation of capacitors at cryogenic temperatures for space applications. National Aeronautics and Space Administration, Lewis Research Center, 1998.

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Book chapters on the topic "Deep space applications"

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Brown, Paula R., Richard E. Hodges, and Jacqueline C. Chen. "Antennas for Deep Space Applications." In Space Antenna Handbook. John Wiley & Sons, Ltd, 2012. http://dx.doi.org/10.1002/9781119945147.ch17.

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Sedlmayr, Hans-Juergen, A. Beyer, K. Joehl, K. Kunze, M. Maier, and T. Obermeier. "COTS for Deep Space Missions." In Radiation Effects on Integrated Circuits and Systems for Space Applications. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-04660-6_16.

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Koushik, Sparsh, Pawan Kumar Sahu, Shashank Kumar Dubey, and Aminul Islam. "Radiation Immune SRAM Cell for Deep Space Applications." In Lecture Notes in Electrical Engineering. Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-16-1570-2_14.

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Wang, Xiaobo, Junde Song, and Xianwei Zhou. "Hypergraph Based Network Model and Architechture for Deep Space Exploration." In Information Computing and Applications. Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-25255-6_63.

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Maleki, L. "Low-Noise and Stable LO’s for Deep Space Applications." In Frequency Standards and Metrology. Springer Berlin Heidelberg, 1989. http://dx.doi.org/10.1007/978-3-642-74501-0_31.

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Jia, Qingxuan, Wen Shao, Gang Chen, Yifan Wang, and Lanpu Li. "A Self-calibration Method of Lander Manipulator for Deep Space Exploration Mission." In Intelligent Robotics and Applications. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-27538-9_30.

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Di Lizia, Pierluigi, Roberto Armellin, Francesco Topputo, Franco Bernelli-Zazzera, and Martin Berz. "Global Optimization of Interplanetary Transfers with Deep Space Maneuvers Using Differential Algebra." In Springer Optimization and Its Applications. Springer New York, 2012. http://dx.doi.org/10.1007/978-1-4614-4469-5_8.

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Hamkins, Jon, and Marvin K. Simon. "Acronyms and Abbreviations." In Autonomous Software-Defined Radio Receivers for Deep Space Applications. John Wiley & Sons, Inc., 2006. http://dx.doi.org/10.1002/9780470087800.acron.

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Hamkins, Jon, and Marvin K. Simon. "Introduction and Overview." In Autonomous Software-Defined Radio Receivers for Deep Space Applications. John Wiley & Sons, Inc., 2006. http://dx.doi.org/10.1002/9780470087800.ch1.

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Simon, Marvin K. "Symbol Synchronization." In Autonomous Software-Defined Radio Receivers for Deep Space Applications. John Wiley & Sons, Inc., 2006. http://dx.doi.org/10.1002/9780470087800.ch10.

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Conference papers on the topic "Deep space applications"

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Patterson, R. L., A. Hammoud, J. E. Dickman, S. Gerber, M. Elbuluk, and E. Overton. "Electronics for deep space cryogenic applications." In Proceedings of the 5th European Workshop on Low Temperature Electronics. IEEE, 2002. http://dx.doi.org/10.1109/wolte.2002.1022482.

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Shambayati, S., and D. K. Lee. "GMSK modulation for deep space applications." In 2012 IEEE Aerospace Conference. IEEE, 2012. http://dx.doi.org/10.1109/aero.2012.6187097.

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Mason, Lee S. "Solar Stirling for deep space applications." In HADRONS AND NUCLEI: First International Symposium. AIP, 2000. http://dx.doi.org/10.1063/1.1290939.

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Cesarone, R. J., D. S. Abraham, S. Shambayati, and J. Rush. "Deep-space optical communications." In 2011 International Conference on Space Optical Systems and Applications (ICSOS). IEEE, 2011. http://dx.doi.org/10.1109/icsos.2011.5783707.

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Hemmati, H., W. H. Farr, A. Biswas, et al. "Deep-space optical terminals." In 2011 International Conference on Space Optical Systems and Applications (ICSOS). IEEE, 2011. http://dx.doi.org/10.1109/icsos.2011.5783719.

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Whelan, Harry T. "NASA light emitting diode medical applications from deep space to deep sea." In Space technology and applications international forum - 2001. AIP, 2001. http://dx.doi.org/10.1063/1.1357902.

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Ngo, Edmond, and Edwin S. Romero. "Developing Additive Manufactured Monopropellant Thrusters for Deep Space CubeSat Applications." In AIAA SPACE 2016. American Institute of Aeronautics and Astronautics, 2016. http://dx.doi.org/10.2514/6.2016-5363.

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Vilnrotter, Victor, and Jon Hamkins. "Telecommand/Telemetry Ranging for Deep-Space Applications." In 2019 IEEE Aerospace Conference. IEEE, 2019. http://dx.doi.org/10.1109/aero.2019.8742212.

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Endres, Shaun, M. Griffith, Behnam Malakooti, Kul Bhasin, and A. Holtz. "Space Based Internet Network Emulation for Deep Space Mission Applications." In 22nd AIAA International Communications Satellite Systems Conference & Exhibit 2004 (ICSSC). American Institute of Aeronautics and Astronautics, 2004. http://dx.doi.org/10.2514/6.2004-3210.

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Wright, Malcolm W., and Michael Y. Peng. "Lasers for Deep Space Optical Communications." In Applications of Lasers for Sensing and Free Space Communications. OSA, 2016. http://dx.doi.org/10.1364/lsc.2016.lth1b.3.

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