Thematische Bibliographien / Photonuclear reactions / Zeitschriftenartikel
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Zeitschriftenartikel zum Thema „Photonuclear reactions“

Autor: Grafiati
Veröffentlicht am 4. Juni 2021
Zuletzt aktualisiert am 25. Juli 2025

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1

Schumacher, M. "Photonuclear reactions." Journal of Physics G: Nuclear Physics 14, S (1988): S235. http://dx.doi.org/10.1088/0305-4616/14/s/026.

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2

Bayram, Tuncay, Serkan Akkoyun, Serhat Uruk, Haris Dapo, Fatih Dulger, and Ismail Boztosun. "Transition energy and half-life determinations of photonuclear reaction products of erbium nuclei." International Journal of Modern Physics E 25, no. 12 (2016): 1650107. http://dx.doi.org/10.1142/s021830131650107x.

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Photon induced reactions are called as photonuclear reactions and used in many research fields of nuclear science and nuclear physics. The photonuclear data are used in many nuclear applications such as radiation shielding and protection, radiation transport analyses, reactor core design, activation analysis and nuclear waste transmutation. In the past, many studies had been devoted to extract photonuclear data covering the isotopic chart. However, there is still lack of existing data. In the present study, we have performed photonuclear reactions on erbium (Er) target by using clinical electr
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3

Xu, Y., S. Goriely, D. L. Balabanski, et al. "Capture and photonuclear reaction rates involving charged-particles: Impacts of nuclear ingredients and future measurement on ELI-NP." EPJ Web of Conferences 178 (2018): 04007. http://dx.doi.org/10.1051/epjconf/201817804007.

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The astrophysical p-process is an important way of nucleosynthesis to produce the stable and proton-rich nuclei beyond Fe which can not be reached by the s- and r-processes. In the present study, the impact of nuclear ingredients, especially the nuclear potential, level density and strength function, to the astrophysical re-action rates of (p,γ), (α,γ), (γ,p), and (γ,α) reactions are systematically studied. The calculations are performed basad on the modern reaction code TALYS for about 3000 stable and proton-rich nuclei with 12≤Z≤110. In particular, both of the Wood-Saxon potential and the mi
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4

Wang, X. L., Z. Y. Tan, W. Luo, Z. C. Zhu, X. D. Wang, and Y. M. Song. "Photo-transmutation of long-lived radionuclide 135Cs by laser–plasma driven electron source." Laser and Particle Beams 34, no. 3 (2016): 433–39. http://dx.doi.org/10.1017/s0263034616000318.

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AbstractLaser-driven relativistic electrons can be focused onto a high-Z convertor for generating high-brightness γ-rays, which in turn can be used to induce photonuclear reactions. In this work, photo-transmutation of long-lived radionuclide 135Cs induced by laser–plasma–interaction-driven electron source is demonstrated using Geant4 simulation (Agostinelli et al., 2003 Nucl. Instrum. Meth. A506, 250). High-energy electron generation, bremsstrahlung, as well as photonuclear reaction are observed at four different laser intensities: 1020, 5 × 1020, 1021, and 5 × 1021 W/cm2. The transmutation e
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5

Ishkhanov, B. S. "Symmetries in photonuclear reactions." Moscow University Physics Bulletin 65, no. 2 (2010): 69–80. http://dx.doi.org/10.3103/s0027134910020013.

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6

Rauscher, T. "Photonuclear Reactions in Astrophysics." Nuclear Physics News 28, no. 3 (2018): 12–15. http://dx.doi.org/10.1080/10619127.2018.1463016.

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7

Belli, P., R. Bernabei, S. d’Angelo, et al. "Low-energy3He photonuclear reactions." Il Nuovo Cimento A 103, no. 5 (1990): 721–29. http://dx.doi.org/10.1007/bf02789024.

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8

Findlay, D. J. S. "Applications of photonuclear reactions." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 50, no. 1-4 (1990): 314–20. http://dx.doi.org/10.1016/0168-583x(90)90374-4.

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9

Bakhshiyan, T. M., and G. H. Hovhannisyan. "Formation of medical radioisotope 111In in photonuclear reactions." Journal of Instrumentation 19, no. 07 (2024): C07010. http://dx.doi.org/10.1088/1748-0221/19/07/c07010.

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Abstract The possibility of photonuclear production of 111In radioisotope has been investigated. The enriched target 112Sn was irradiated at the linear electron accelerator LUE-75 of A. Alikhanian National Science Laboratory (Yerevan, Armenia) at the bremsstrahlung endpoint energy Eγmax = 55 MeV. The cross section per equivalent quantum for reactions 112Sn(γ,x)111In, 112Sn(γ,n)111Sn, 112Sn(γ,2n)110Sn, 112Sn(γ,3n)109Sn,112 Sn(γ,pn)110mIn, 112Sn(γ,pn)110g110In, 112Sn(γ,p2n)109In have been measured via the method of activation and off-line γ-ray spectrometric technique. The cross section per equi
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10

Ishkhanov, B. S., I. M. Kapitonov, A. A. Kuznetsov, V. N. Orlin, and Han Dong Yoon. "Photonuclear reactions on molybdenum isotopes." Physics of Atomic Nuclei 77, no. 11 (2014): 1362–70. http://dx.doi.org/10.1134/s106377881410007x.

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11

Belyshev, S. S., L. Z. Dzhilavyan, B. S. Ishkhanov, et al. "Photonuclear reactions on titanium isotopes." Physics of Atomic Nuclei 78, no. 2 (2015): 220–29. http://dx.doi.org/10.1134/s106377881502009x.

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12

Shibata, S., M. Imamura, T. Miyachi, et al. "Photonuclear spallation reactions in Cu." Physical Review C 35, no. 1 (1987): 254–62. http://dx.doi.org/10.1103/physrevc.35.254.

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13

Rosa-Clot, M., and Magda Ericson. "Photonuclear reactions and dispersion relations." Zeitschrift f�r Physik A Atoms and Nuclei 320, no. 4 (1985): 675–82. http://dx.doi.org/10.1007/bf01411870.

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14

Lotz, G. M., and H. S. Sherif. "Relativistic calculations for photonuclear reactions." Nuclear Physics A 537, no. 3-4 (1992): 285–302. http://dx.doi.org/10.1016/0375-9474(92)90357-p.

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15

Balabanski, Dimiter L. "What do we expect to learn from γ-beam experiments related to nuclear astrophysics at ELI-NP?" EPJ Web of Conferences 297 (2024): 01001. http://dx.doi.org/10.1051/epjconf/202429701001.

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This paper addresses some of the of open problems in photonuclear physics which await to be resolved using high-brilliance γ-ray beams, such as precise measurements of total or partial cross sections of photonuclear reactions related to astroparticle physics and nuclear astrophysics. The readiness for such measurements at ELI-NP, as well as the state-of-the-art instrumentation which is available are discussed. The possibility to utilize γ-beams with orbital angular momentum in photonuclear experiments is addressed, too.
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16

He, Chuangye, Yongle Dang, Fulong Liu та ін. "Photonuclear reaction study with the (p, γ) resonance γ-source". EPJ Web of Conferences 239 (2020): 01014. http://dx.doi.org/10.1051/epjconf/202023901014.

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The (p, γ) resonance is a good way to produce monoenergetic γ rays. It becomes an important tool for studying photonuclear reactions. In this work, 13C(p, γ)14N resonance is studied to produce 9.17 MeV γ ray using the 2 × 1.7 MV tandem accelerator at CIAE. The flux of 9.17 MeV γ was determined to be 2.3 × 105/s. 197Au photoneutron cross section was measured to be 45.4 ± 6.9 mb under the irradiation of 13C(p, γ)14N resonance γ -source. The value is close to the previous results. It certificates that we have developed an experimental method for photonuclear reaction study.
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17

Kuzin, A., R. Rassool, and MN Thompson. "De-excitation Gamma-ray Technique for Improved Resolution in Intermediate Energy Photonuclear Reactions." Australian Journal of Physics 49, no. 6 (1996): 1075. http://dx.doi.org/10.1071/ph961075.

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Use of residual-state decay γ-rays could be a powerful tool in the study of photonuclear reactions. The practicality of this technique in a tagged-photon experiment is demonstrated for the first time with data on the 12C(γ,p) reaction.
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18

Asanov, Zh A., A. N. Ermakov, B. S. Ishkhanov, et al. "Multiparticle photonuclear reactions in 203Tl nuclei." Bulletin of the Russian Academy of Sciences: Physics 71, no. 3 (2007): 332–35. http://dx.doi.org/10.3103/s1062873807030069.

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19

Enoto, Teruaki, Yuuki Wada, Yoshihiro Furuta, et al. "Photonuclear reactions triggered by lightning discharge." Nature 551, no. 7681 (2017): 481–84. http://dx.doi.org/10.1038/nature24630.

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20

Holt, R. J. "Exclusive photonuclear reactions and asymptotic scaling." Physical Review C 41, no. 5 (1990): 2400–2402. http://dx.doi.org/10.1103/physrevc.41.2400.

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21

Ejiri, Hiroyasu, Tatsushi Shima, Shuji Miyamoto, et al. "Resonant Photonuclear Reactions for Isotope Transmutation." Journal of the Physical Society of Japan 80, no. 9 (2011): 094202. http://dx.doi.org/10.1143/jpsj.80.094202.

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22

Hovhannisyan, G. H., T. M. Bakhshiyan, and G. V. Martirosyan. "Photonuclear Reactions on Medium-Mass Nuclei." Journal of Contemporary Physics (Armenian Academy of Sciences) 57, no. 4 (2022): 325–30. http://dx.doi.org/10.1134/s1068337222040119.

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23

Bezshyyko, Oleg, Oleksandr Vodin, Larisa-Bezshyyko Golinka, et al. "Isomer ratios for products of photonuclear reactions on Rh." EPJ Web of Conferences 239 (2020): 01026. http://dx.doi.org/10.1051/epjconf/202023901026.

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Over the past several years various preequilibrium models for nuclear reaction mechanisms description were developed. Diversified detailed experimental data in the medium excitation energy region for nuclei are needed for reasonable selection among these theoretical models. Lack of experimental data in this energy region does essentially limit the possibilities for analysis and comparison of different preequilibrium theoretical models. For photonuclear reactions this energy range covers 30-100 MeV. Experimental measurements and estimations of isomer ratios for products of photonuclear reaction
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24

Ermakov, A. N., B. S. Ishkhanov, I. M. Kapitonov, Kyaw Kyaw Htun, and I. V. Makarenko. "Multineutron photonuclear reactions on the 197Au isotope." Moscow University Physics Bulletin 62, no. 5 (2007): 316–19. http://dx.doi.org/10.3103/s0027134907050104.

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25

Belyshev, S. S., L. Z. Dzhilavyan, B. S. Ishkhanov, et al. "Photonuclear reactions on titanium isotopes 46-50Ti." Moscow University Physics Bulletin 69, no. 5 (2014): 363–73. http://dx.doi.org/10.3103/s0027134914050026.

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26

MENEZES, D. P., and A. F. R. DE TOLEDO PIZA. "COMMENTS ON PHOTONUCLEAR REACTIONS AT INTERMEDIATE ENERGIES." International Journal of Modern Physics E 01, no. 02 (1992): 397–403. http://dx.doi.org/10.1142/s0218301392000217.

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Most of the recently published papers on photonuclear reactions at intermediate energies1 either adopt or criticize the theoretical description by Hebach et al.2 We implement here a simple and realistic calculation for the shell model knock-out contribution which considers a Woods-Saxon potential for the bound state and a shallower optical potential for the outgoing nucleon. Final states are explicitly orthogonalized to the initial state and the effects of the orthogonalization requirement are discussed.
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27

Belyshev, S. S., A. N. Ermakov, B. S. Ishkhanov, et al. "Studying photonuclear reactions using the activation technique." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 745 (May 2014): 133–37. http://dx.doi.org/10.1016/j.nima.2014.01.057.

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28

Gonçalves, M., S. de Pina, D. A. Lima, W. Milomen, E. L. Medeiros, and S. B. Duarte. "Many-body cascade calculation for photonuclear reactions." Physics Letters B 406, no. 1-2 (1997): 1–6. http://dx.doi.org/10.1016/s0370-2693(97)00662-x.

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29

Bogdanov, O. V., S. B. Dabagov, and Yu L. Pivovarov. "Photonuclear reactions by relativistic electron channeling radiation." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 465 (February 2020): 67–72. http://dx.doi.org/10.1016/j.nimb.2020.01.005.

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30

Zheltonozhskaya, M. V., V. A. Zheltonozhsky, E. N. Lykova, A. P. Chernyaev, and V. N. Iatsenko. "Production of Zirconium-89 by photonuclear reactions." Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms 470 (May 2020): 38–41. http://dx.doi.org/10.1016/j.nimb.2020.03.002.

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31

Malaney, Robert A., Grant J. Mathews, and David S. P. Dearborn. "Stellar photonuclear reactions and the actinide cosmochronometers." Astrophysical Journal 345 (October 1989): 169. http://dx.doi.org/10.1086/167892.

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32

Ishkhanov, B. S., and V. V. Varlamov. "Photonuclear reactions: Modern status of the data." Physics of Atomic Nuclei 67, no. 9 (2004): 1664–73. http://dx.doi.org/10.1134/1.1806905.

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33

Boztosun, I., H. Dapo, M. Karakoc, et al. "Photonuclear reactions induced by a clinical linac." Journal of Physics: Conference Series 590 (April 8, 2015): 012024. http://dx.doi.org/10.1088/1742-6596/590/1/012024.

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34

Rasulova, F. A., R. A. Aliev, S. S. Belyshev, et al. "Photonuclear Reactions on Natural Mixture of Selenium." Physics of Atomic Nuclei 86, no. 5 (2023): 725–35. http://dx.doi.org/10.1134/s1063778823050356.

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35

Vagena, E., та S. Stoulos. "Average cross section measurement for 162Er(γ,n) reaction compared with theoretical calculations using TALYS". HNPS Proceedings 24 (1 квітня 2019): 123. http://dx.doi.org/10.12681/hnps.1854.

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Bremsstrahlung photon beam delivered by a linear electron accelerator has been used to experimentally determine the near threshold photonuclear cross section data of nuclides. For the first time, (γ,n) cross section data was obtained for the astrophysical important nucleus 162Er. Moreover, theoretical calculations have been applied using the TALYS 1.6 code. The effect of the gamma ray strength function on the cross section calculations has been studied. A satisfactorily reproduction of the available experimental data of photonuclear cross section at the energy region below 20 MeV could be achi
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36

Das, Sruthy Jyothi. "Looking for QGP signatures in ultraperipheral PbPb collisions." EPJ Web of Conferences 296 (2024): 17005. http://dx.doi.org/10.1051/epjconf/202429617005.

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Ultraperipheral collisions of relativistic heavy ion beams lead to a diverse set of photon-nucleus (photonuclear) interactions. The measurements of particles and their interaction produced in photonuclear reactions can shed light on the QCD dynamics of these novel, extremely asymmetric colliding systems, with energies between those available at RHIC and the LHC. Previous studies by ATLAS indicate significant elliptic and triangular flow coefficients in these events [1]. Thus, it is imperative to check these events for other potential QGP signatures including radial flow, strangeness enhancemen
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37

Gonçalves, M., E. C. de Oliveira, E. L. Medeiros, S. de Pina, and S. B. Duarte. "Hot hypernucleus formation in high-energy photonuclear reactions." Brazilian Journal of Physics 34, no. 3a (2004): 919–23. http://dx.doi.org/10.1590/s0103-97332004000500057.

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38

Ermakov, A. N., I. V. Makarenko, V. N. Orlin, B. S. Ishkhanov, and I. M. Kapitonov. "Multi-particle Photonuclear Reactions behind Giant Dipole Resonance." Journal of the Korean Physical Society 59, no. 2(3) (2011): 1936–39. http://dx.doi.org/10.3938/jkps.59.1936.

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39

Haba, Hiromitsu. "Recoil Studies of Photonuclear Reactions at Intermediate Energies." Journal of Nuclear and Radiochemical Sciences 3, no. 2 (2002): A11—A20. http://dx.doi.org/10.14494/jnrs2000.3.2_a11.

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40

Belyshev, S. S., B. S. Ishkhanov, V. V. Khankin, et al. "Photonuclear Reactions on Bypassed Nuclei 84Sr and 92Mo." Bulletin of the Russian Academy of Sciences: Physics 82, no. 6 (2018): 702–7. http://dx.doi.org/10.3103/s1062873818060060.

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41

Danagulyan, A. S., G. H. Hovhannisyan, T. M. Bakhshiyan, et al. "Photonuclear reactions on 112,118,124Sn, natTe, and natHf targets." Physics of Atomic Nuclei 77, no. 11 (2014): 1313–20. http://dx.doi.org/10.1134/s1063778814100056.

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42

Dietz, B., and H. A. Weidenmüller. "Photonuclear reactions induced by intense short laser pulses." Physics Letters B 693, no. 3 (2010): 316–22. http://dx.doi.org/10.1016/j.physletb.2010.07.061.

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43

Demekhina, N. A., and K. A. Amroyan. "Recoil studies of nuclei produced in photonuclear reactions." Zeitschrift f�r Physik A Hadrons and Nuclei 350, no. 1 (1994): 51–54. http://dx.doi.org/10.1007/bf01285051.

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44

Araki, M. "Nonmesonic photonuclear reactions in the three-nucleon system." Physical Review C 39, no. 4 (1989): 1251–60. http://dx.doi.org/10.1103/physrevc.39.1251.

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45

Lotz, G. M., and H. S. Sherif. "Relativistic DWBA calculations for medium energy photonuclear reactions." Physics Letters B 210, no. 1-2 (1988): 45–50. http://dx.doi.org/10.1016/0370-2693(88)90346-2.

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46

Khai, Nguyen Tuan, Tran Duc Thiep, Truong Thi An, Phan Viet Cuong та Nguyen The Vinh. "Neutron Yield from (γ, n) and (γ, 2n) Reactions following 100 MeV Bremsstrahlung in a Tungsten Target". Communications in Physics 19, № 1 (2009): 53–58. http://dx.doi.org/10.15625/0868-3166/19/1/239.

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The photonuclear reactions of (γ, xn) or (γ, xnp) types can be used to produce high-intensity neutron sources for research and applied purposes. In this work a Monte-Carlo calculation has been used to evaluate the production yield of neutrons from the (γ, n) and (γ, 2n) reactions following the bremsstrahlung produced by a 100 MeV electron beam on a tungsten target.
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47

Garnaud, Louis, Luna Sobczak, Johann Piekar, et al. "Compendium on Monte Carlo simulation of photoneutrons in the Giant Dipole Resonance energy range: The first five elements." EPJ Web of Conferences 302 (2024): 07004. http://dx.doi.org/10.1051/epjconf/202430207004.

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Neutrons generated by photonuclear reactions, “photoneutrons”, are encountered in various applications involving high-energy gamma sources, electron accelerators or nuclear reactors. Monte Carlo particle-transport codes are generally used to simulate the emission of photoneutrons, characterize their field or assess their impact on nuclear systems. The aim of this work is to create a compendium on the simulation of photoneutrons using several Monte Carlo codes, i.e., MCNP6, PHITS and TRIPOLI-4, each code being run successively with ENDF/B-VIII.0 and JENDL-5 nuclear data libraries. We study the
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48

Bezshyyko, O. A., A. N. Vodin, L. O. Golinka-Bezshyyko, et al. "Isomer ratios of photonuclear reaction products for indium isotopes in the energy region over 33 MeV." Nuclear Physics and Atomic Energy 10, no. 2 (2009): 146–51. https://doi.org/10.15407/jnpae2009.02.146.

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This paper deals with the results of isomer ratio measurements for nuclei 110m,gIn and 108m,gIn from photonuclear reactions 113In(γ, 3n)110m,gIn, 115In(γ, 5n)110m,gIn, 115In(γ, 7n)108m,gIn. Bremsstrahlung energies varied within (34÷43) MeV for 113In(γ, 3n)110m,gIn reaction, in energy region (43÷100) MeV for 115In(γ, 5n)110m,gIn and 115In(γ, 7n)108m,gIn reactions. The instrumental gamma-ray spectra of irradiated target specimen have been measured with high purity germanium semiconductor spectrometer. The isomer ratio results and dependence of isomer ratios upon maximal bremsstrahlung energies w
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49

Biçer, Ahmet, Kaan Manisa, Abdullah Engin Çalık, et al. "Determination of the energy transitions and half-lives of Rubidium nuclei." Open Physics 16, no. 1 (2018): 63–68. http://dx.doi.org/10.1515/phys-2018-0012.

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Abstract The photonuclear reactions, first extensively studied in the 1970’s and performed using the gamma rays obtained via bremsstrahlung, are a standard nuclear physics experiment. In this study, a non-enriched Rubidium sample was irradiated with photons produced by a clinical linear electron accelerator (cLINACs) with energies up to 18 MeV with the aim of activating it through photonuclear reactions. The activated sample was measured with a high purity germanium detector (HPGe) with the aim of measuring the transition energies and half-lives. The spectroscopic analysis performed on the obt
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50

Bezshyyko, Oleg, Anatoliy Dovbnya, Larisa Golinka-Bezshyyko, et al. "Isomer ratios for products of photonuclear reactions on 121Sb." EPJ Web of Conferences 146 (2017): 05016. http://dx.doi.org/10.1051/epjconf/201714605016.

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