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70 results on '"Glamazdin, A. V."'

1. Millimeter-wave study of London penetration depth temperature dependence in Ba(Fe0.926Co0.074)2As2 single crystal

Author

Barannik, A. A., Cherpak, N. T., Ni, N., Tanatar, M. A., Vitusevich, S. A., Skresanov, V. N., Canfield, P. C., Prozorov, R., Glamazdin, V. V., and Torokhtii, K. I.

Subjects
Condensed Matter - Superconductivity, Physics - Instrumentation and Detectors
Abstract

In-plane surface Ka-band microwave impedance of optimally doped single crystals of the Fe-based superconductor Ba(Fe0.926Co0.074)2As2 (Tc= 22.8K) was measured. Sensitive sapphire disk quasi-optical resonator with high-Tc cuprate conducting endplates was developed specially for Fe-pnictide superconductors. It allowed finding temperature variation of London penetration depth in a form of power law, namely \Delta \lambda (T)~ Tn with n = 2.8 from low temperatures up to at least 0.6Tc consisted with radio-frequency measurements. This exponent points towards nodeless state with pairbreaking scattering, which can support one of the extended s-pairing symmetries. The dependence \lambda(T) at low temperatures is well described by one superconducting small-gap (\Delta \cong 0.75 in kTc units, where k is Boltzman coefficient) exponential dependence., Comment: 6 pages, 2 figures, to be published in Low Temperature Physics,vol.37, August 2011

Published
2011
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2. Electron Beam M\O ller Polarimeter at Jlab Hall a

Author

Glamazdin, A. V., Gorbenko, V. G., Levchuk, L. G., Pomatsalyuk, R. I., Rubashkin, A. L., Sorokin, P. V., Dale, D. S., Doyle, B., Gorringe, T., Korsch, W., Zeps, V., Chen, J. P., Chudakov, E., Nanda, S., Saha, A., and Gasparian, A.

Subjects
High Energy Physics - Experiment
Abstract

As part of the spin physics program at Jefferson Laboratory (JLab), a M\o ller polarimeter was developed to measure the polarization of electron beam of energies 0.8 to 5.0 GeV. A unique signature for M\o ller scattering is obtained using a series of three quadrupole magnets which provide an angular selection, and a dipole magnet for energy analysis. The design, commissioning, and the first results of the polarization measurements of this polarimeter will be presented as well as future plans to use its small scattering angle capabilities to investigate physics in the very low $Q^2$ regime., Comment: 4 pages, 2 figures, uses epsfig.sty; presented by A.Glamazdin at Conference on Nuclear and Particle Physics with CEBAF at Jefferson Lab, Dubrovnik, Croatia, 3-10 Nov 1998

Published
1999

4. Інтелектуальні регістратори легеневого шуму

Author

Vysoczka, Olena V., Glamazdin, Volodymyr V., Kryvenko, Olena V., Lutsenko, Vladyslav I., Lutsenko, Iryna V., Shubny, Oleksandr I., Popova, Kira V., and Babakov, Mykhaylo F.

Subjects
detection of lung pathologies, чотириканальний пристрій, акустичний шум, single-channel device, four-channel device, одноканальний пристрій, noise spectra, acoustic noise, спектри шуму, differential diagnostics of noise, фази дихання, диференціальна діагностика шуму, respiratory phases, виявлення легеневих патологій, 612.2 [534.6]
Abstract

The schemes for using the simplest single-channel device for wireless recording of lung noise on a smartphone and a microcontroller based four-channel device for simultaneous recording of lung noise in different parts of the patient's chest and outside his chest are developed in this paper. Prototypes of such devices, combined with microphones using auxiliary equipment was made. Trial recordings of lung noises and wireless transmission to the smartphone were made. It is shown that the use of byte format of recording with a frequency of 8 kHz is sufficient to provide the required dynamic range for further analysis of the noise. The device is mounted in a lightweight plastic housing that can be attached to the patient's clothing and allows long-term (up to 24 hours) continuous monitoring of respiration. The autonomy of its operation is ensured by the presence of a lithium-ion battery, with the ability to charge from any source of 5V DC, such as from a USB port from a PC or from a charger of a smartphone. The transmission of data of monitoring is wireless using Bluetooth. Obtained: structural and schematic diagrams of single and multi-channel sensors for electro-auscultation of the lungs with a wireless data transmission channel, which opens up new opportunities for the creation of automated single-channel and multi-channel systems for diagnosing the condition of the lungs. It is concluded that the created single and multi-channel sensors in their technical capabilities fully meet the needs of automated systems for diagnosing the condition of the lungs by acoustic noise. У роботі розроблено схеми використання найпростішого одноканального пристрою для бездротової реєстрації легеневих шумів на смартфоні та чотириканального пристрою на базі мікроконтролера для одночасної реєстрації легеневих шумів у різних відділах грудної клітки пацієнта та поза грудною кліткою. Виготовлено дослідні зразки таких пристроїв, суміщених з мікрофонами за допомогою допоміжного обладнання. Були зроблені пробні записи легеневих шумів і бездротова передача на смартфон. Показано, що використання байтового формату запису з частотою 8 кГц є достатнім для забезпечення необхідного динамічного діапазону для подальшого аналізу шуму. Апарат змонтований в легкому пластиковому корпусі, який кріпиться до одягу пацієнта і дозволяє тривалий (до 24 годин) безперервний моніторинг дихання. Автономність його роботи забезпечується наявністю літій-іонного акумулятора, з можливістю заряджатися від будь-якого джерела постійного струму 5 В, наприклад від USB-порту від ПК або від зарядного пристрою смартфона. Передача даних моніторингу бездротова за допомогою Bluetooth. Отримано: структурні та принципові схеми одно- та багатоканальних датчиків електроаускультації легень з бездротовим каналом передачі даних, що відкриває нові можливості для створення автоматизованих одно- та багатоканальних систем діагностики стану легені. Зроблено висновок, що створені одно- та багатоканальні датчики за своїми технічними можливостями повністю відповідають потребам автоматизованих систем діагностики стану легень за акустичним шумом.

Published
2023

11. Circular polarization splitters for three-band feed of radiotelescope reflector antenna

Author

Skresanov, Valery N., Glamazdin, Vladimir V., Kirilenko, Anatoliy A., Kulik, Dmitry Yu., Natarov, Mikhail P., Pylypenko, O. M., Rud, Leonid A., Shubnyj, Alexander I., and Zolotarev, V. A.

Subjects
coaxial waveguides, polarizers, circular polarization splitters, septum polarizer, ridged-type phase shifter, phase shifter, ortho-mode transduce, radio telescope reflector antennas, feed aperture unit, Astrophysics::Instrumentation and Methods for Astrophysics, Physics::Optics, Computer Science::Information Theory
Abstract

The results of the design and testing of circular polarization splitters (polarizers) of the Ka-, X-, and S-bands, intended for operation as constituent parts of a three-band feed of a radio telescope reflector antenna, are presented. In addition, the results of developing a set of polarizers intended for connecting to waveguide outputs of band-measuring horn antennas are presented. These polarizers are developed to measure the antenna feed patterns on the co- and cross circular polarizations.

Published
2014

20. Design and optimization of tri-band coaxial feed horn for the radio telescope antenna

Author

Perov, Andrey O.; Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Skresanov, Valery N.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Perov, Andrey O.; Usikov Institute for Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, and Skresanov, Valery N.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine

Abstract

An exact full-wave model for simulation and optimization of the multi band horns with axial corrugation is described. The main steps at the design (S/X/Ka) horn for the given specification of supposed reflector are presented.

Published
2014

21. Extraction of the neutron magnetic form factor from quasielastic $^{3}\overrightarrow{He}(\vec{e},{e}')$ at $Q^{2} = 0.1-0.6 (GeV/c)^{2}$

Author

Anderson, B., Auberbach, L., Averett, T., Bertozzi, W., Black, T., Calarco, J., Cardman, L., Cates, G. D., Chai, Z. W., Chen, J. P., Choi, Seonho, Chudakov, E., Churchwell, S., Corrado, G. S., Crawford, C., Dale, D., Deur, A., Djawotho, P., Dutta, D., Finn, J. M., Gao, H., Gilman, R., Glamazdin, A. V., Glashausser, C., Glöckle, W., Golak, Jacek, Gomez, J., Gorbenko, V. G., Hansen, J. O., Hersman, F. W., Higinbotham, D. W., Holmes, R., Howell, C. R., Hughes, E., Humensky, B., Incerti, S., de Jager, C. W., Jensen, J. S., Jiang, X., Jones, C. E., Jones, M., Kahl, R., Kamada, H., Kievsky, A., Kominis, I., Korsch, W., Kramer, K., Kumbartzki, G., Kuss, M., Lakuriqi, E., Liang, M., Liyanage, N., LeRose, J., Malov, S., Margaziotis, D. J., Martin, J. W., McCormick, K., McKeown, R. D., McIlhany, K., Meziani, Z. E., Michaels, R., Miller, G. W., Mitchell, J., Nanda, S., Pace, E., Pavlin, T., Petratos, G. G., Pomatsalyuk, R. I., Pripstein, D., Prout, D., Ransome, R. D., Roblin, Y., Rvachev, M., Saha, A., Salmè, G., Schnee, M., Seely, J., Shin, T., Slifer, K., Souder, P. A., Strauch, S., Suleiman, R., Sutter, M., Tipton, B., Todor, L., Viviani, M., Vlahovic, B., Watson, J., Williamson, C. F., Witała, Henryk, Wojtsekhowski, B., Xiong, F., Xu, W., Yeh, J., and Żołnierczuk, P.

Published
2007

22. Combined reflector-lens monopulse antenna

Author

Natarov, Mikhail P., Glamazdin, Vladimir V., Skresanov, Valery N., Shubnyj, Alexander I., and The authors would like to thank Prof. D. Vavriv and V. Bormotov for statement of problem and Prof. A. Kirilenko, D.Sc. L. Rud', Ph.D. V. Tkachenko for waveguide units and grid subreflector computation programs.

Subjects
monopulse antenna, monopulse feed system, Cassegrain antenna, ComputerApplications_MISCELLANEOUS, Astrophysics::Instrumentation and Methods for Astrophysics, Computer Science::Information Theory
Abstract

The combined reflector-lens antenna having the common monopulse feed system is proposed for changing the sum and difference patterns width by turning of lamellate subreflector. Such an antenna allows one to improve a target detection probability with the same tracking accuracy. Information for antenna designing is done. The prototype antenna measurements are discussed.

Published
2003

23. Plane-wave impulse approximation extraction of the neutron magnetic form factor from quasielastic $^{3}He\rightarrow (\vec{e},{e}')$ at $Q^{2} = 0.3$ to $0.6 (GeV/c)^{2}$

Author

Xu, W., Anderson, B., Auberbach, L., Averett, T., Bertozzi, W., Black, T., Calarco, J., Cardman, L., Cates, G. D., Chai, Z. W., Chen, J. P., Choi, S., Chudakov, E., Churchwell, S., Corrado, G. S., Crawford, C., Dale, D., Deur, A., Djawotho, P., Donnelly, T. W., Dutta, D., Finn, J. M., Gao, H., Gilman, R., Glamazdin, A. V., Glashausser, C., Glöckle, W., Golak, Jacek, Gomez, J., Gorbenko, V. G., Hansen, J.-O., Hersman, F. W., Higinbotham, D. W., Holmes, R., Howell, C. R., Hughes, E., Humensky, B., Incerti, S., de Jager, C. W., Jensen, J. S., Jiang, X., Jones, C. E., Jones, M., Kahl, R., Kamada, H., Kievsky, A., Kominis, I., Korsch, W., Kramer, K., Kumbartzki, G., Kuss, M., Lakuriqi, E., Liang, M., Liyanage, N., LeRose, J., Malov, S., Margaziotis, D. J., Martin, J. W., McCormick, K., McKeown, R. D., McIlhany, K., Meziani, Z.-E., Michaels, R., Miller, G. W., Mitchell, J., Nanda, S., Pace, E., Pavlin, T., Petratos, G. G., Pomatsalyuk, R. I., Pripstein, D., Prout, D., Ransome, R. D., Roblin, Y., Rvachev, M., Saha, A., Salmè, G., Schnee, M., Shin, T., Slifer, K., Souder, P. A., Strauch, S., Suleiman, R., Sutter, M., Tipton, B., Todor, L., Viviani, M., Vlahovic, B., Watson, J., Williamson, C. F., Witała, Henryk, Wojtsekhowski, B., Xiong, F., Yeh, J., and Żołnierczuk, P.

Published
2003

24. Quasielastic 1p-shell proton knockout from $^{16}O$ at $Q^{2} = 0.8 (GeV/c)^{2}$

Author

Gao, J, Anderson, B D, Aniol, K A, Auerbach, L B, Baker, F T, Beise, E J, Berthot, J, Bertin, P Y, Bertozzi, W, Bimbot, L, Brash, E J, Breton, V, Breuer, H, Burtin, E, Böglin, W, Calarco, J R, Cardman, L S, Cates, G D, Cavata, C, Chang, C C, Chant, N S, Chen, J P, Cisbani, E, D'Hose, N, Dale, D S, De Jager, C W, De Leo, R, Deur, A, Diederich, B, Djawotho, P, Doyle, B, Ducret, J E, Epstein, M B, Ewell, L A, Finn, J M, Fissum, K G, Fonvieille, H, Frois, Bernard, Frullani, S, Garibaldi, F, Gasparian, A, Gilad, S, Gilman, R, Glamazdin, A V, Glashausser, C, Gorbenko, V G, Gorringe, T P, Griffieon, K, Gómez, J, Hersman, F W, Holmes, R, Holtrop, M, Howell, C, Huber, G M, Hyde-Wright, C E, Iodice, M, Jaminion, S, Jones, M K, Joo, K K, Jutier, C, Kahl, W E, Kato, S, Kelly, J J, Kerhoas, S, Khandaker, M, Khayat, M, Kino, K, Korsch, W, Kramer, L, Kumar, K S, Kumbartzki, G J, Laveissière, G, Le Rose, J J, Leone, A, Levchuk, L G, Liang, M, Lindgren, R A, Liyanage, N K, Lolos, G J, Lourie, R W, Madey, R, Maeda, K I, Malov, S Y, Manley, D M, Margaziotis, D J, Markowitz, P, Martino, J, McCarthy, J S, McCormick, K, McIntyre, J, Meziani, Z E, Michaels, R, Mougey, J, Nanda, S, Neyret, D, Offermann, E, Papandreou, Z, Perdrisat, C F, Perrino, R, Petratos, G G, Platchkov, S K, Pomatsalyuk, R I, Prout, D L, Punjabi, V A, Pussieux, T, Quéméner, G, Ransome, R D, Ravel, O, Roblin, Y, Roché, R, Rondon-Aramayo, O A, Roos, P G, Rowntree, D, Rutledge, G A, Rutt, P M, Saha, A, Saitô, T, Sarty, A J, Serdarevic-Offermann, A, Smith, T P, Soldi, A, Sorokin, P, Souder, P A, Suleiman, R, Templon, J A, Terasawa, T, Todor, L, Tsubota, H, Ueno, H, Ulmer, P E, Urciuoli, G M, Van Verst, S P, Van der Meer, R L J, Vernin, P, Vlahovic, B, Voskanyan, H, Watson, J W, Weinstein, L B, Wijesooriya, K, Wilson, R, Wojtsekhowski, B B, Zainea, D G, Zeps, V, Zhao, J, and Zhou, Z L

Subjects
Nuclear Physics
Published
1999

25. Electron Beam M��ller Polarimeter at Jlab Hall a

Author

Glamazdin, A. V., Gorbenko, V. G., Levchuk, L. G., Pomatsalyuk, R. I., Rubashkin, A. L., Sorokin, P. V., Dale, D. S., Doyle, B., Gorringe, T., Korsch, W., Zeps, V., Chen, J. P., Chudakov, E., Nanda, S., Saha, A., and Gasparian, A.

Subjects
High Energy Physics - Experiment (hep-ex), Physics::Accelerator Physics, FOS: Physical sciences, Nuclear Experiment
Abstract

As part of the spin physics program at Jefferson Laboratory (JLab), a M��ller polarimeter was developed to measure the polarization of electron beam of energies 0.8 to 5.0 GeV. A unique signature for M��ller scattering is obtained using a series of three quadrupole magnets which provide an angular selection, and a dipole magnet for energy analysis. The design, commissioning, and the first results of the polarization measurements of this polarimeter will be presented as well as future plans to use its small scattering angle capabilities to investigate physics in the very low $Q^2$ regime., 4 pages, 2 figures, uses epsfig.sty; presented by A.Glamazdin at Conference on Nuclear and Particle Physics with CEBAF at Jefferson Lab, Dubrovnik, Croatia, 3-10 Nov 1998

Published
1999
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28. KA-Band, P-I-N switchable antenna array system

Author

Sekretarov, S. S.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Vavriv, Dmitry M.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Volkov, V. A.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Natarov, Mikhail P.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Sekretarov, S. S.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Vavriv, Dmitry M.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Volkov, V. A.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Natarov, Mikhail P.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, and Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine

Abstract

An original electrically switchable, Ka-band antenna array system has been recently developed, produced, and tested. The system consists of four identical sections, which are connected to radar transmitter/receiver by means of a high-power, multipole P-i-N switch. The introduced P-i-N switch enables for a fast electrical scanning of the antenna beam what essentially extends possible areas of the antenna system application. The antenna system is used in a helicopter collision avoidance, surveillance, and weather radar. This paper describes design features of the antenna system, its main characteristics, results of its testing, and the antenna integration in the radar.

Published
2007

29. Two-reflector parabolic antenna for millimeter-wave range communication systems

Author

Bulgakov, B. M., Glamazdin, Vladimir V., Leonov, Y. I., Natarov, Mikhail P., Skresanov, Valery N., and Shubnyj, Alexander I.

Subjects
Astrophysics::Instrumentation and Methods for Astrophysics
Abstract

The development of radiorelay communication systems in millimeter wave range at the frequencies 36 to 38 GHz has required a design of efficient antenna systems. Radiorelay station of this frequency range has rather small overall dimensions. That is why antenna for such station must be as small as possible and therefore it must have the aperture efficiency as high as possible. Such requirements can be best satisfied by a two-reflectors parabolic antenna having a small reflector with elliptical generatrix and a large reflector with parabolic generatrix and displaced axis [1]. A schematic sketch of such antenna is presented in Fig. 1.

Published
1997

30. 2D tape scaner for microwave holography

Author

This work has been supported in part by Intermap Technologies GmbH (Former AeroSensing Radar Systeme GmbH): STCU partner Project P-050 and regular STCU project 1954., Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Lukin, Konstantin A.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Moreira, Jao; Formerly AeroSensing Radar Systeme GmbH Wessling, Natarov, Mikhail P.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Seleznyov, Dmitriy G.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, Skresanov, Valery N.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, This work has been supported in part by Intermap Technologies GmbH (Former AeroSensing Radar Systeme GmbH): STCU partner Project P-050 and regular STCU project 1954., Glamazdin, Vladimir V.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Lukin, Konstantin A.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Moreira, Jao; Formerly AeroSensing Radar Systeme GmbH Wessling, Natarov, Mikhail P.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine, Seleznyov, Dmitriy G.; Institute of Radio Astronomy of the National Academy of Sciences of Ukraine, and Skresanov, Valery N.; Usikov Institute of Radiophysics and Electronics of the National Academy of Sciences of Ukraine

Abstract

The arrangement and operation principles of a new type 2D scanner antenna for radioholographic systems enabling 3D imaging is described. Design of such antennas and some results of their testing are presented.

Published
2005

38. Extraction of the neutron magnetic form factor from quasielastic3He→(e→,e') atQ2=0.1−0.6 (GeV/c)2

Author

Anderson, B., primary, Auberbach, L., additional, Averett, T., additional, Bertozzi, W., additional, Black, T., additional, Calarco, J., additional, Cardman, L., additional, Cates, G. D., additional, Chai, Z. W., additional, Chen, J. P., additional, Choi, Seonho, additional, Chudakov, E., additional, Churchwell, S., additional, Corrado, G. S., additional, Crawford, C., additional, Dale, D., additional, Deur, A., additional, Djawotho, P., additional, Dutta, D., additional, Finn, J. M., additional, Gao, H., additional, Gilman, R., additional, Glamazdin, A. V., additional, Glashausser, C., additional, Glöckle, W., additional, Golak, J., additional, Gomez, J., additional, Gorbenko, V. G., additional, Hansen, J.-O., additional, Hersman, F. W., additional, Higinbotham, D. W., additional, Holmes, R., additional, Howell, C. R., additional, Hughes, E., additional, Humensky, B., additional, Incerti, S., additional, Jager, C. W. de, additional, Jensen, J. S., additional, Jiang, X., additional, Jones, C. E., additional, Jones, M., additional, Kahl, R., additional, Kamada, H., additional, Kievsky, A., additional, Kominis, I., additional, Korsch, W., additional, Kramer, K., additional, Kumbartzki, G., additional, Kuss, M., additional, Lakuriqi, E., additional, Liang, M., additional, Liyanage, N., additional, LeRose, J., additional, Malov, S., additional, Margaziotis, D. J., additional, Martin, J. W., additional, McCormick, K., additional, McKeown, R. D., additional, McIlhany, K., additional, Meziani, Z.-E., additional, Michaels, R., additional, Miller, G. W., additional, Mitchell, J., additional, Nanda, S., additional, Pace, E., additional, Pavlin, T., additional, Petratos, G. G., additional, Pomatsalyuk, R. I., additional, Pripstein, D., additional, Prout, D., additional, Ransome, R. D., additional, Roblin, Y., additional, Rvachev, M., additional, Saha, A., additional, Salmè, G., additional, Schnee, M., additional, Seely, J., additional, Shin, T., additional, Slifer, K., additional, Souder, P. A., additional, Strauch, S., additional, Suleiman, R., additional, Sutter, M., additional, Tipton, B., additional, Todor, L., additional, Viviani, M., additional, Vlahovic, B., additional, Watson, J., additional, Williamson, C. F., additional, Witała, H., additional, Wojtsekhowski, B., additional, Xiong, F., additional, Xu, W., additional, Yeh, J., additional, and Żołnierczuk, P., additional

Published
2007
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39. Plane-wave impulse approximation extraction of the neutron magnetic form factor from quasielastic3He→(e→,e′)atQ2=0.3to0.6(GeV/c)2

Author

Xu, W., primary, Anderson, B., additional, Auberbach, L., additional, Averett, T., additional, Bertozzi, W., additional, Black, T., additional, Calarco, J., additional, Cardman, L., additional, Cates, G. D., additional, Chai, Z. W., additional, Chen, J. P., additional, Choi, S., additional, Chudakov, E., additional, Churchwell, S., additional, Corrado, G. S., additional, Crawford, C., additional, Dale, D., additional, Deur, A., additional, Djawotho, P., additional, Donnelly, T. W., additional, Dutta, D., additional, Finn, J. M., additional, Gao, H., additional, Gilman, R., additional, Glamazdin, A. V., additional, Glashausser, C., additional, Glöckle, W., additional, Golak, J., additional, Gomez, J., additional, Gorbenko, V. G., additional, Hansen, J.-O., additional, Hersman, F. W., additional, Higinbotham, D. W., additional, Holmes, R., additional, Howell, C. R., additional, Hughes, E., additional, Humensky, B., additional, Incerti, S., additional, de Jager, C. W., additional, Jensen, J. S., additional, Jiang, X., additional, Jones, C. E., additional, Jones, M., additional, Kahl, R., additional, Kamada, H., additional, Kievsky, A., additional, Kominis, I., additional, Korsch, W., additional, Kramer, K., additional, Kumbartzki, G., additional, Kuss, M., additional, Lakuriqi, E., additional, Liang, M., additional, Liyanage, N., additional, LeRose, J., additional, Malov, S., additional, Margaziotis, D. J., additional, Martin, J. W., additional, McCormick, K., additional, McKeown, R. D., additional, McIlhany, K., additional, Meziani, Z.-E., additional, Michaels, R., additional, Miller, G. W., additional, Mitchell, J., additional, Nanda, S., additional, Pace, E., additional, Pavlin, T., additional, Petratos, G. G., additional, Pomatsalyuk, R. I., additional, Pripstein, D., additional, Prout, D., additional, Ransome, R. D., additional, Roblin, Y., additional, Rvachev, M., additional, Saha, A., additional, Salmè, G., additional, Schnee, M., additional, Shin, T., additional, Slifer, K., additional, Souder, P. A., additional, Strauch, S., additional, Suleiman, R., additional, Sutter, M., additional, Tipton, B., additional, Todor, L., additional, Viviani, M., additional, Vlahovic, B., additional, Watson, J., additional, Williamson, C. F., additional, Witała, H., additional, Wojtsekhowski, B., additional, Xiong, F., additional, Yeh, J., additional, and Żołnierczuk, P., additional

Published
2003
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40. Electron beam Moeller polarimeter at Hall A, TJNAF

Author

Chen, Jean-Ping, primary, Chudakov, Eugene A., additional, Dale, Daniel S., additional, Gasparian, Ashot, additional, Glamazdin, Alexander V., additional, Gorbenko, Victor G., additional, Levchuk, Leonid G., additional, Nanda, Sirish K., additional, Pomatsalyuk, Roman I., additional, Saha, Arun, additional, and Sorokin, Pavel V., additional

Published
2002
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41. Precision Measurement of the Spin-Dependent Asymmetry in the Threshold Region of3H→e(e→,e′)

Author

Xiong, F., primary, Dutta, D., additional, Xu, W., additional, Anderson, B., additional, Auberbach, L., additional, Averett, T., additional, Bertozzi, W., additional, Black, T., additional, Calarco, J., additional, Cardman, L., additional, Cates, G. D., additional, Chai, Z. W., additional, Chen, J. P., additional, Choi, S., additional, Chudakov, E., additional, Churchwell, S., additional, Corrado, G. S., additional, Crawford, C., additional, Dale, D., additional, Deur, A., additional, Djawotho, P., additional, Filippone, B. W., additional, Finn, J. M., additional, Gao, H., additional, Gilman, R., additional, Glamazdin, A. V., additional, Glashausser, C., additional, Glöckle, W., additional, Golak, J., additional, Gomez, J., additional, Gorbenko, V. G., additional, Hansen, J.-O., additional, Hersman, F. W., additional, Higinbotham, D. W., additional, Holmes, R., additional, Howell, C. R., additional, Hughes, E., additional, Humensky, B., additional, Incerti, S., additional, de Jager, C. W., additional, Jensen, J. S., additional, Jiang, X., additional, Jones, C. E., additional, Jones, M., additional, Kahl, R., additional, Kamada, H., additional, Kievsky, A., additional, Kominis, I., additional, Korsch, W., additional, Kramer, K., additional, Kumbartzki, G., additional, Kuss, M., additional, Lakuriqi, E., additional, Liang, M., additional, Liyanage, N., additional, LeRose, J., additional, Malov, S., additional, Margaziotis, D. J., additional, Martin, J. W., additional, McCormick, K., additional, McKeown, R. D., additional, McIlhany, K., additional, Meziani, Z.-E., additional, Michaels, R., additional, Miller, G. W., additional, Pace, E., additional, Pavlin, T., additional, Petratos, G. G., additional, Pomatsalyuk, R. I., additional, Pripstein, D., additional, Prout, D., additional, Ransome, R. D., additional, Roblin, Y., additional, Rvachev, M., additional, Saha, A., additional, Salmè, G., additional, Schnee, M., additional, Shin, T., additional, Slifer, K., additional, Souder, P. A., additional, Strauch, S., additional, Suleiman, R., additional, Sutter, M., additional, Tipton, B., additional, Todor, L., additional, Viviani, M., additional, Vlahovic, B., additional, Watson, J., additional, Williamson, C. F., additional, Witała, H., additional, Wojtsekhowski, B., additional, Yeh, J., additional, and Żołnierczuk, P., additional

Published
2001
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43. Transverse AsymmetryAT′from the Quasielastic3He→(e→,e′)Process and the Neutron Magnetic Form Factor

Author

Xu, W., primary, Dutta, D., additional, Xiong, F., additional, Anderson, B., additional, Auberbach, L., additional, Averett, T., additional, Bertozzi, W., additional, Black, T., additional, Calarco, J., additional, Cardman, L., additional, Cates, G. D., additional, Chai, Z. W., additional, Chen, J. P., additional, Choi, S., additional, Chudakov, E., additional, Churchwell, S., additional, Corrado, G. S., additional, Crawford, C., additional, Dale, D., additional, Deur, A., additional, Djawotho, P., additional, Filippone, B. W., additional, Finn, J. M., additional, Gao, H., additional, Gilman, R., additional, Glamazdin, A. V., additional, Glashausser, C., additional, Glöckle, W., additional, Golak, J., additional, Gomez, J., additional, Gorbenko, V. G., additional, Hansen, J.-O., additional, Hersman, F. W., additional, Higinbotham, D. W., additional, Holmes, R., additional, Howell, C. R., additional, Hughes, E., additional, Humensky, B., additional, Incerti, S., additional, de Jager, C. W., additional, Jensen, J. S., additional, Jiang, X., additional, Jones, C. E., additional, Jones, M., additional, Kahl, R., additional, Kamada, H., additional, Kievsky, A., additional, Kominis, I., additional, Korsch, W., additional, Kramer, K., additional, Kumbartzki, G., additional, Kuss, M., additional, Lakuriqi, E., additional, Liang, M., additional, Liyanage, N., additional, LeRose, J., additional, Malov, S., additional, Margaziotis, D. J., additional, Martin, J. W., additional, McCormick, K., additional, McKeown, R. D., additional, McIlhany, K., additional, Meziani, Z.-E., additional, Michaels, R., additional, Miller, G. W., additional, Pace, E., additional, Pavlin, T., additional, Petratos, G. G., additional, Pomatsalyuk, R. I., additional, Pripstein, D., additional, Prout, D., additional, Ransome, R. D., additional, Roblin, Y., additional, Rvachev, M., additional, Saha, A., additional, Salmè, G., additional, Schnee, M., additional, Shin, T., additional, Slifer, K., additional, Souder, P. A., additional, Strauch, S., additional, Suleiman, R., additional, Sutter, M., additional, Tipton, B., additional, Todor, L., additional, Viviani, M., additional, Vlahovic, B., additional, Watson, J., additional, Williamson, C. F., additional, Witała, H., additional, Wojtsekhowski, B., additional, Yeh, J., additional, and Żołnierczuk, P., additional

Published
2000
Full Text
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47. Plane-wave impulse approximation extraction of the neutron magnetic form factor from quasielastic 3He→(e→,e′) at Q2 = 0.3 to 0.6 (GeV/c)2

Author

Xu, W., Anderson, B., Auberbach, L., Averett, T., Bertozzi, W., Black, T., Calarco, J., Cardman, L., Cates, G. D., Chai, Z. W., Chen, J. P., Choi, S., Chudakov, E., Churchwell, S., Corrado, G. S., Crawford, C., Dale, D., Deur, A., Djawotho, P., Donnelly, T. W., Dutta, D., Finn, J. M., Gao, H., Gilman, R., Glamazdin, A. V., Glashausser, C., Glöckle, W., Golak, J., Gomez, J., Gorbenko, V. G., Hansen, J. -O, Hersman, F. W., Higinbotham, D. W., Holmes, R., Howell, C. R., Hughes, E., Humensky, B., Incerti, S., Jager, C. W., Jensen, J. S., Jiang, X., Jones, C. E., Jones, M., Kahl, R., Kamada, H., Kievsky, A., Kominis, I., Korsch, W., Kramer, K., Kumbartzki, G., Kuss, M., Enkeleida Lakuriqi, Liang, M., Liyanage, N., Lerose, J., Malov, S., Margaziotis, D. J., Martin, J. W., Mccormick, K., Mckeown, R. D., Mcilhany, K., Meziani, Z. -E, Michaels, R., Miller, G. W., Mitchell, J., Nanda, S., Pace, E., Pavlin, T., Petratos, G. G., Pomatsalyuk, R. I., Pripstein, D., Prout, D., Ransome, R. D., Roblin, Y., Rvachev, M., Saha, A., Salmè, G., Schnee, M., Shin, T., Slifer, K., Souder, P. A., Strauch, S., Suleiman, R., Sutter, M., Tipton, B., Todor, L., Viviani, M., Vlahovic, B., Watson, J., Williamson, C. F., Witała, H., Wojtsekhowski, B., Xiong, F., Yeh, J., and Zołnierczuk, P.

48. Plane-wave impulse approximation extraction of the neutron magnetic form factor from Quasi-Elastic {sup 3}{rvec H}e({rvec e},e{prime}) at Q{sup 2} = 0.3 to 0.6 (GeV/c){sup 2}

Author

Xu, W., Anderson, B., Auberbach, L., Averett, T., Bertozzi, W., Black, T., Calarco, J., Cardman, L., Cates, G. D., Chai, Z. W., Chen, J. P., Choi, S., Chudakov, E., Churchwell, S., Corrado, G. S., Crawford, C., Dale, D., Deur, A., Djawotho, P., Donnelly, T. W., Dutta, D., Finn, J. M., Gao, H., Gilman, R., Glamazdin, A. V., Glashausser, C., Gloeckle, Walter, Golak, J., Gomez, J., Gorbenko, V. G., Hansen, J. O., Hersman, F. W., Higinbotham, D. W., Holmes, R., Howell, C. R., Hughes, E., Humensky, B., Incerti, S., Jager, C. W., Jensen, J. S., Jiang, X., Jones, C. E., Jones, M., Kahl, R., Kamada, H., Kievsky, A., Kominis, I., Korsch, W., Kramer, K., Kumbartzki, G., Kuss, M., Lakuriqi, E., Liang, M., Liyanage, N., Lerose, J., Malov, S., Margaziotis, D. J., Martin, J. W., Mccormick, K., Mckeown, R. D., Mcilhany, K., Meziani, Z. E., Michaels, R., Miller, G. W., Mitchell, J., Nanda, S., Pace, E., Pavlin, T., Petratos, G. G., Pomatsalyuk, R. I., Pripstein, D., Prout, D., Ronald Ransome, Roblin, Y., Rvachev, M., Saha, A., Salme, G., Schnee, M., Shin, T., Slifer, K., Souder, P. A., Strauch, S., Suleiman, R., Sutter, M., Tipton, B., Todor, L., Viviani, M., Vlahovic, B., Watson, J., Williamson, C. F., Witala, H., Wojtsekhowski, B., Xiong, F., Yeh, J., and Zolnierczuk, P.

49. Precision measurement of the spin-dependent asymmetry in the threshold region of 3H→e(e→, e′)

Author

Xiong, F., Dutta, D., Xu, W., Anderson, B., Auberbach, L., Averett, T., Bertozzi, W., Black, T., Calarco, J., Cardman, L., Cates, G. D., Chai, Z. W., Chen, J. P., Choi, S., Chudakov, E., Churchwell, S., Corrado, G. S., Crawford, C., Dale, D., Deur, A., Djawotho, P., Filippone, B. W., Finn, J. M., Gao, H., Gilman, R., Glamazdin, A. V., Glashausser, C., Glöckle, W., Golak, J., Gomez, J., Gorbenko, V. G., Hansen, J. -O, Hersman, F. W., Higinbotham, D. W., Holmes, R., Howell, C. R., Hughes, E., Humensky, B., Incerti, S., Jager, C. W., Jensen, J. S., Jiang, X., Jones, C. E., Jones, M., Kahl, R., Kamada, H., Kievsky, A., Kominis, I., Korsch, W., Kramer, K., Kumbartzki, G., Kuss, M., Lakuriqi, E., Liang, M., Liyanage, N., Lerose, J., Malov, S., Margaziotis, D. J., Martin, J. W., Mccormick, K., Mckeown, R. D., Mcilhany, K., Meziani, Z. -E, Michaels, R., Miller, G. W., Pace, E., Pavlin, T., Petratos, G. G., Pomatsalyuk, R. I., Pripstein, D., Prout, D., Ronald Ransome, Roblin, Y., Rvachev, M., Saha, A., Salmè, G., Schnee, M., Shin, T., Slifer, K., Souder, P. A., Strauch, S., Suleiman, R., Sutter, M., Tipton, B., Todor, L., Viviani, M., Vlahovic, B., Watson, J., Williamson, C. F., Witala, H., Wojtsekhowski, B., Yeh, J., and Zolnierczuk, P.

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