On Monitoring Position of a Charged Particle Moving near a Metal Sphere by Means of Diffraction Radiation
— A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface between two media) and diffraction radiation when moving near medium inhomogeneities without crossing their boundaries. Both diffraction and transit...
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| Published in | Surface investigation, x-ray, synchrotron and neutron techniques Vol. 17; no. 2; pp. 368 - 370 |
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| Main Authors | , |
| Format | Journal Article |
| Language | English |
| Published |
Moscow
Pleiades Publishing
01.04.2023
Springer Nature B.V |
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| Abstract | —
A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface between two media) and diffraction radiation when moving near medium inhomogeneities without crossing their boundaries. Both diffraction and transition radiation can be used to detect particles and monitor beams in accelerators. While methods based on the transition radiation of particles for diagnostics of both relativistic and nonrelativistic beams are widespread, the application of diffraction radiation for these goals remains the subject of research. Diffraction-radiation generation weakly perturbs the motion of a particle beam, which makes it possible to develop nondestructive beam-diagnostics methods. The description of the diffraction radiation of a nonrelativistic charged particle for a conducting sphere was constructed earlier by means of the image method known from electrostatics. The method for finding the parameters of particle flight by the sphere was proposed within the framework of this approach; it used a single point detector recording the intensity and polarization of diffraction radiation. Here we propose a scheme with three detectors that solves the same problem without recording the radiation polarization. |
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| AbstractList | —
A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface between two media) and diffraction radiation when moving near medium inhomogeneities without crossing their boundaries. Both diffraction and transition radiation can be used to detect particles and monitor beams in accelerators. While methods based on the transition radiation of particles for diagnostics of both relativistic and nonrelativistic beams are widespread, the application of diffraction radiation for these goals remains the subject of research. Diffraction-radiation generation weakly perturbs the motion of a particle beam, which makes it possible to develop nondestructive beam-diagnostics methods. The description of the diffraction radiation of a nonrelativistic charged particle for a conducting sphere was constructed earlier by means of the image method known from electrostatics. The method for finding the parameters of particle flight by the sphere was proposed within the framework of this approach; it used a single point detector recording the intensity and polarization of diffraction radiation. Here we propose a scheme with three detectors that solves the same problem without recording the radiation polarization. Abstract—A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface between two media) and diffraction radiation when moving near medium inhomogeneities without crossing their boundaries. Both diffraction and transition radiation can be used to detect particles and monitor beams in accelerators. While methods based on the transition radiation of particles for diagnostics of both relativistic and nonrelativistic beams are widespread, the application of diffraction radiation for these goals remains the subject of research. Diffraction-radiation generation weakly perturbs the motion of a particle beam, which makes it possible to develop nondestructive beam-diagnostics methods. The description of the diffraction radiation of a nonrelativistic charged particle for a conducting sphere was constructed earlier by means of the image method known from electrostatics. The method for finding the parameters of particle flight by the sphere was proposed within the framework of this approach; it used a single point detector recording the intensity and polarization of diffraction radiation. Here we propose a scheme with three detectors that solves the same problem without recording the radiation polarization. |
| Author | Syshchenko, V. V. Tarnovsky, A. I. |
| Author_xml | – sequence: 1 givenname: V. V. surname: Syshchenko fullname: Syshchenko, V. V. email: syshch@yandex.ru organization: Belgorod National Research University – sequence: 2 givenname: A. I. surname: Tarnovsky fullname: Tarnovsky, A. I. organization: Belgorod National Research University |
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| Cites_doi | 10.1070/PU1966v009n01ABEH002892 10.1016/j.nimb.2017.03.013 10.1070/PU2000v043n08ABEH000683 10.1134/S1027451019050367 10.1103/PhysRevSTAB.1.06280 10.1088/1748-0221/12/12/C12057 10.1016/j.nimb.2019.05.066 10.1007/978-3-642-12513-3 10.1007/978-3-642-19248-7 10.1070/PU1986v029n08ABEH003484 10.1134/S1027451019020393 |
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| Copyright | Pleiades Publishing, Ltd. 2023. ISSN 1027-4510, Journal of Surface Investigation: X-ray, Synchrotron and Neutron Techniques, 2023, Vol. 17, No. 2, pp. 368–370. © Pleiades Publishing, Ltd., 2023. Russian Text © The Author(s), 2023, published in Poverkhnost’, 2023, No. 3, pp. 59–62. |
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| References | LandauL. D.LifshitsE. M.Electrodynamics of Continuous Media1992MoscowNauka CastellanoM.VerzilovV. A.Phys. Rev. Spec. Top.—Accel. Beams1998106280110.1103/PhysRevSTAB.1.06280 BolotovskiiB. M.VoskresenskiiG. V.Sov. Phys. Usp.196697310.1070/PU1966v009n01ABEH002892 SyshchenkoV. V.LarikovaE. A.GladkihYu. P.J. Instrum.201712C1205710.1088/1748-0221/12/12/C12057 SyshchenkoV. V.LarikovaE. A.J. Surf. Invest.: X‑ray, Synchrotron Neutron Tech.2019139901:CAS:528:DC%2BC1MXitVSjt7bO10.1134/S1027451019050367 A. I. Akhiezer and N. F. Shul’ga, High-Energy Electrodynamics in Matter (Nauka, Moscow, 1993; Gordon and Breach, Luxembourg, 1996). Shul’gaN. F.SyshchenkoV. V.LarikovaE. A.Nucl. Instrum. Methods Phys. ResSect. B20174021671:CAS:528:DC%2BC2sXktVKgsL8%3D10.1016/j.nimb.2017.03.013 A. P. Potylitsyn, Electromagnetic Radiation of Electrons in Periodic Structures, Springer Tracts in Modern Physics, Vol. 243 (Springer, Berlin, 2011). https://doi.org/10.1007/978-3-642-19248-7 Shul’gaN. F.SyshchenkoV. V.Nucl. Instrum. Methods Phys. ResSect. B2019452551:CAS:528:DC%2BC1MXhtVygurbP10.1016/j.nimb.2019.05.066 BazylevV. A.ZhevagoN. K.Radiation of Fast Particles in Matter and External Fields1987MoscowNauka GinzburgV. L.TsytovichV. N.Transition Radiation and Transition Scattering1984MoscowNauka J. D. Jackson, Classical Electrodynamics (Wiley, New York, 1962; Mir, Moscow, 1965). A. P. Potylitsyn, M. I. Ryazanov, M. N. Strikhanov, and A. A. Tishchenko, Diffraction Radiation from Relativistic Particles, Springer Tracts in Modern Physics, Vol. 239 (Springer, Berlin, 2010). https://doi.org/10.1007/978-3-642-12513-3 BolotovskiiB. M.Galst’yanE. A.Phys.—Usp.20004375510.1070/PU2000v043n08ABEH000683 SyshchenkoV. V.LarikovaE. A.J. Surf. Invest.: Xрray, Synchrotron Neutron Tech.2019133591:CAS:528:DC%2BC1MXhtVajsLjK10.1134/S1027451019020393 R. Singh, T. Reichert, and B. Walasek-Hoehne, arXiv:2104.08487v1 (2021). R. Singh and T. Reichert, arXiv:2107.08689v3 (2021). AbbasovI. I.BolotovskiiB. M.DavydovV. A.Sov. Phys. Usp.19862978810.1070/PU1986v029n08ABEH003484 L. D. Landau (9055_CR3) 1992 N. F. Shul’ga (9055_CR9) 2017; 402 V. V. Syshchenko (9055_CR13) 2019; 13 M. Castellano (9055_CR6) 1998; 1 V. L. Ginzburg (9055_CR1) 1984 B. M. Bolotovskii (9055_CR5) 2000; 43 V. A. Bazylev (9055_CR15) 1987 B. M. Bolotovskii (9055_CR4) 1966; 9 9055_CR2 N. F. Shul’ga (9055_CR12) 2019; 452 9055_CR18 9055_CR7 9055_CR16 9055_CR8 9055_CR17 I. I. Abbasov (9055_CR14) 1986; 29 V. V. Syshchenko (9055_CR11) 2019; 13 V. V. Syshchenko (9055_CR10) 2017; 12 |
| References_xml | – reference: A. P. Potylitsyn, Electromagnetic Radiation of Electrons in Periodic Structures, Springer Tracts in Modern Physics, Vol. 243 (Springer, Berlin, 2011). https://doi.org/10.1007/978-3-642-19248-7 – reference: R. Singh, T. Reichert, and B. Walasek-Hoehne, arXiv:2104.08487v1 (2021). – reference: Shul’gaN. F.SyshchenkoV. V.Nucl. Instrum. Methods Phys. ResSect. B2019452551:CAS:528:DC%2BC1MXhtVygurbP10.1016/j.nimb.2019.05.066 – reference: Shul’gaN. F.SyshchenkoV. V.LarikovaE. A.Nucl. Instrum. Methods Phys. ResSect. B20174021671:CAS:528:DC%2BC2sXktVKgsL8%3D10.1016/j.nimb.2017.03.013 – reference: BolotovskiiB. M.Galst’yanE. A.Phys.—Usp.20004375510.1070/PU2000v043n08ABEH000683 – reference: R. Singh and T. Reichert, arXiv:2107.08689v3 (2021). – reference: SyshchenkoV. V.LarikovaE. A.J. Surf. Invest.: X‑ray, Synchrotron Neutron Tech.2019139901:CAS:528:DC%2BC1MXitVSjt7bO10.1134/S1027451019050367 – reference: CastellanoM.VerzilovV. A.Phys. Rev. Spec. Top.—Accel. Beams1998106280110.1103/PhysRevSTAB.1.06280 – reference: BazylevV. A.ZhevagoN. K.Radiation of Fast Particles in Matter and External Fields1987MoscowNauka – reference: BolotovskiiB. M.VoskresenskiiG. V.Sov. Phys. Usp.196697310.1070/PU1966v009n01ABEH002892 – reference: AbbasovI. I.BolotovskiiB. M.DavydovV. A.Sov. Phys. Usp.19862978810.1070/PU1986v029n08ABEH003484 – reference: GinzburgV. L.TsytovichV. N.Transition Radiation and Transition Scattering1984MoscowNauka – reference: J. D. Jackson, Classical Electrodynamics (Wiley, New York, 1962; Mir, Moscow, 1965). – reference: SyshchenkoV. V.LarikovaE. A.J. Surf. Invest.: Xрray, Synchrotron Neutron Tech.2019133591:CAS:528:DC%2BC1MXhtVajsLjK10.1134/S1027451019020393 – reference: LandauL. D.LifshitsE. M.Electrodynamics of Continuous Media1992MoscowNauka – reference: SyshchenkoV. V.LarikovaE. A.GladkihYu. P.J. Instrum.201712C1205710.1088/1748-0221/12/12/C12057 – reference: A. P. Potylitsyn, M. I. Ryazanov, M. N. Strikhanov, and A. A. Tishchenko, Diffraction Radiation from Relativistic Particles, Springer Tracts in Modern Physics, Vol. 239 (Springer, Berlin, 2010). https://doi.org/10.1007/978-3-642-12513-3 – reference: A. I. Akhiezer and N. F. Shul’ga, High-Energy Electrodynamics in Matter (Nauka, Moscow, 1993; Gordon and Breach, Luxembourg, 1996). – volume: 9 start-page: 73 year: 1966 ident: 9055_CR4 publication-title: Sov. Phys. Usp. doi: 10.1070/PU1966v009n01ABEH002892 – volume: 402 start-page: 167 year: 2017 ident: 9055_CR9 publication-title: Sect. B doi: 10.1016/j.nimb.2017.03.013 – ident: 9055_CR16 – ident: 9055_CR17 – ident: 9055_CR18 – volume: 43 start-page: 755 year: 2000 ident: 9055_CR5 publication-title: Usp. doi: 10.1070/PU2000v043n08ABEH000683 – volume: 13 start-page: 990 year: 2019 ident: 9055_CR13 publication-title: J. Surf. Invest.: X‑ray, Synchrotron Neutron Tech. doi: 10.1134/S1027451019050367 – volume: 1 start-page: 062801 year: 1998 ident: 9055_CR6 publication-title: Phys. Rev. Spec. Top.—Accel. Beams doi: 10.1103/PhysRevSTAB.1.06280 – volume: 12 start-page: C12057 year: 2017 ident: 9055_CR10 publication-title: J. Instrum. doi: 10.1088/1748-0221/12/12/C12057 – volume-title: Radiation of Fast Particles in Matter and External Fields year: 1987 ident: 9055_CR15 – volume-title: Electrodynamics of Continuous Media year: 1992 ident: 9055_CR3 – volume: 452 start-page: 55 year: 2019 ident: 9055_CR12 publication-title: Sect. B doi: 10.1016/j.nimb.2019.05.066 – ident: 9055_CR2 – ident: 9055_CR7 doi: 10.1007/978-3-642-12513-3 – ident: 9055_CR8 doi: 10.1007/978-3-642-19248-7 – volume: 29 start-page: 788 year: 1986 ident: 9055_CR14 publication-title: Sov. Phys. Usp. doi: 10.1070/PU1986v029n08ABEH003484 – volume-title: Transition Radiation and Transition Scattering year: 1984 ident: 9055_CR1 – volume: 13 start-page: 359 year: 2019 ident: 9055_CR11 publication-title: J. Surf. Invest.: Xрray, Synchrotron Neutron Tech. doi: 10.1134/S1027451019020393 |
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A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface between... Abstract—A uniformly moving charged particle generates transition radiation when moving in an inhomogeneous medium (in particular, when crossing the interface... |
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| SubjectTerms | Charged particles Chemistry and Materials Science Diffraction Diffraction radiation Electrostatics Inhomogeneous media Materials Science Moving charged particles Nondestructive testing Particle accelerators Particle beams Polarization Radiation Recording Surfaces and Interfaces Thin Films |
| Title | On Monitoring Position of a Charged Particle Moving near a Metal Sphere by Means of Diffraction Radiation |
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