• Title/Summary/Keyword: Photon

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Modelling atomic relaxation and bremsstrahlung in the deterministic code STREAM

  • Nhan Nguyen Trong Mai;Kyeongwon Kim;Deokjung Lee
    • Nuclear Engineering and Technology
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    • v.56 no.2
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    • pp.673-684
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    • 2024
  • STREAM, developed by the Computational Reactor Physics and Experiment laboratory (CORE) of the Ulsan National Institute of Science and Technology (UNIST), is a deterministic neutron- and photon-transport code primarily designed for light water reactor (LWR) analysis. Initially, the photon module in STREAM did not account for fluorescence and bremsstrahlung photons. This article presents recent developments regarding the integration of atomic relaxation and bremsstrahlung models into the existing photon module, thus allowing for the transport of secondary photons. The photon flux and photon heating computed with the newly incorporated models is compared to results obtained with the Monte Carlo code MCS. The incorporation of secondary photons has substantially improved the accuracy of photon flux calculations, particularly in scenarios involving strong gamma emitters. However, it is essential to note that despite the consideration of secondary photon sources, there is no noticeable improvement in the photon heating for LWR problems when compared to the photon heating obtained with the previous version of STREAM.

Analysis of several VERA benchmark problems with the photon transport capability of STREAM

  • Mai, Nhan Nguyen Trong;Kim, Kyeongwon;Lemaire, Matthieu;Nguyen, Tung Dong Cao;Lee, Woonghee;Lee, Deokjung
    • Nuclear Engineering and Technology
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    • v.54 no.7
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    • pp.2670-2689
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    • 2022
  • STREAM - a lattice transport calculation code with method of characteristics for the purpose of light water reactor analysis - has been developed by the Computational Reactor Physics and Experiment laboratory (CORE) of the Ulsan National Institute of Science and Technology (UNIST). Recently, efforts have been taken to develop a photon module in STREAM to assess photon heating and the influence of gamma photon transport on power distributions, as only neutron transport was considered in previous STREAM versions. A multi-group photon library is produced for STREAM based on the ENDF/B-VII.1 library with the use of the library-processing code NJOY. The developed photon solver for the computation of 2D and 3D distributions of photon flux and energy deposition is based on the method of characteristics like the neutron solver. The photon library and photon module produced and implemented for STREAM are verified on VERA pin and assembly problems by comparison with the Monte Carlo code MCS - also developed at UNIST. A short analysis of the impact of photon transport during depletion and thermal hydraulics feedback is presented for a 2D core also from the VERA benchmark.

Effect of two-photon spatial bunching on single photon detection rates (광자쌍의 뭉침현상이 단일계수에 미치는 영향)

  • 김헌오;신하림;박구동;김태수
    • Korean Journal of Optics and Photonics
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    • v.14 no.6
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    • pp.573-577
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    • 2003
  • We report an effect of photon pairs on single-photon detection rates, while Hong-Ou-Handel's two-photon interference experiment is performed with photons produced in noncollinear type-I parametric down-conversion. Photon pairing behavior or spatial bunching is measured and shown to cause a decrease in the single photon counting rate. Such a dip is found to result from the fact that the single-photon timing resolution of photodetectors is much longer compared to the time interval between the two photons incident on the single-photon detector.

Proton Generation with 3-% Energy Conversion Efficiency (3% 에너지 변환효율을 가진 양성자 발생)

  • Choe, Il-U;Kim, Cheol-Min;Jeong, Tae-Mun;Yu, Tae-Jun;Seong, Jae-Hui;Lee, Seong-Gu;Hafz, N.;Bae, Gi-Hong;No, Yeong-Cheol;Go, Do-Gyeong;Lee, Jong-Min;Nishiuchi, M.;Daido, H.;Yogo, A.;Orimo, S.;Ogura, K.;Ma, J.;Sagisaka, A.;Mori, M.;Pirozhkov, A.S.;Kiriyama, H.;Bulanov, S.V.;Esirkepov, T.Zh.;Oishi, Y.;Nemoto, K.;Nagatomo, H.;Nagai, K.
    • Proceedings of the Optical Society of Korea Conference
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    • 2008.07a
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    • pp.155-156
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    • 2008
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Photon wavefunction 과 two-photon 위그너 함수

  • Jo, Gi-Yeong;No, Jae-U
    • Proceedings of the Optical Society of Korea Conference
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    • 2009.02a
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    • pp.195-196
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    • 2009
  • 최근 Two-particle 위그너 함수 를 이용한 quantum nonlocality의 검증이 시도되고 있다. 우리는 Coherence function에 대한 two-photon위그너 함수를 측정하는 법을 개발했으나, 이를 일반적인 two-particle 위그너 함수로 해석하기 위해서는 photon wavefunction 개념이 필요하다. Two-photon 위그너 함수와 photon wavefunction 에 대한 논의들을 소개한다.

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The multigroup library processing method for coupled neutron and photon heating calculation of fast reactor

  • Teng Zhang;Xubo Ma;Kui Hu;GuanQun Jia
    • Nuclear Engineering and Technology
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    • v.56 no.4
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    • pp.1204-1212
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    • 2024
  • To accurately calculate the heating distribution of the fast reactor, a neutron-photon library in MATXS format named Knight-B7.1-1968n × 94γ was processed based on the ENDF/B-VII.1 library for ultrafine groups. The neutron cross-section processing code MGGC2.0 was used to generate few-group neutron cross sections in ISOTXS format. Additionally, the self-developed photon cross-section processing code NGAMMA was utilized to generate photon libraries for neutron-photon coupled heating calculations, including photo-atom cross sections for the ISOTXS format, prompt photon production cross sections, and kinetic energy release in materials (KERMA) factors for neutrons and photons, and the self-shielding effect from the capture and fission cross sections of neutron to photon have been taken into account when the photon source generated by neutron is calculated. The interface code GSORCAL was developed to generate the photon source distribution and interface with the DIF3D code to calculate the neutron-photon coupling heating distribution of the fast reactor core. The neutron-photon coupled heating calculation route was verified using the ZPPR-9 benchmark and the RBEC-M benchmark, and the results of the coupled heating calculations were analyzed in comparison with those obtained from the Monte Carlo code MCNP. The calculations show that the library was accurately processed, and the results of the fast reactor neutron-photon coupled heating calculations agree well with those obtained from MCNP.

A Study on the Photon Energy Spectrums of Backlight for the Analysis of the Photoelectric Characteristics of a-Si:H TFT (비정질 실리콘 박막 트랜지스터의 광특성 분석을 위한 백라이트의 광자 에너지 스펙트럼에 대한 연구)

  • Jeong, Kyung-Seo;Kwon, Sang-Jik;Cho, Eou-Sik
    • Journal of the Korean Institute of Electrical and Electronic Material Engineers
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    • v.22 no.12
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    • pp.1058-1062
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    • 2009
  • For the investigation of the mechanism of photoelectric characteristics of a hydrogenated amorphous silicon thin film transistor(a-Si:H TFT), spectral characteristics of various backlights were analyzed in terms of the photon energy at each wavelength. Photon energy spectral characteristics were obtained through the multiplication of each photon energy and spectral intensities of backlights at each wavelength and the total photon energies were obtained by the integration of the photon energy spectrums. From the comparison of the experimental photo leakage current and the calculated photon energy, it was possible to conclude that the absorption of illuminated backlight to a-Si:H layer and the generation of electrons and holes are mainly carried out at the wavelength less than 500 nm as described in previous reports.

Development of Laser-driven Proton Source Toward Its Applications

  • Sagisaka, Akito;Daido, Hiroyuki;Pirozhkov, Alexander S.;Yogo, Akifumi;Ogura, Koichi;Orimo, Satoshi;Ma, Jinglong;Mori, Michiaki;Nishiuchi, Mamiko;Bulanov, Sergei V.;Esirkepov, Timur Zh.;Oishi, Yuji;Nayuki, Takuya;Fujii, Takashi;Nemoto, Koshichi;Nagatomo, Hideo
    • Journal of the Optical Society of Korea
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    • v.13 no.1
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    • pp.37-41
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    • 2009
  • We observe the proton signals produced by laser interaction with thin-foil targets of polyimide and of copper. We change the thickness of the polyimide target to $7.5{\mu}m$, $12.5{\mu}m$, and $50{\mu}m$. High-energy protons with the maximum energy of ${\sim}2.3\;MeV$ from $7.5{\mu}m$ thick polyimide are observed. This proton beam with the maximum energy of multi-MeV has various applications such as a proton shadowgraphy.

Information Authentication of Three-Dimensional Photon Counting Double Random Phase Encryption Using Nonlinear Maximum Average Correlation Height Filter

  • Jang, Jae-Young;Inoue, Kotaro;Lee, Min-Chul;Cho, Myungjin
    • Journal of the Optical Society of Korea
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    • v.20 no.2
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    • pp.228-233
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    • 2016
  • In this paper, we propose a nonlinear maximum average correlation height (MACH) filter for information authentication of photon counting double random phase encryption (DRPE). To enhance the security of DRPE, photon counting imaging can be applied because of its sparseness. However, under severely photon-starved conditions, information authentication of DRPE may not be implemented successfully. To visualize the photon counting DRPE, a three-dimensional imaging technique such as integral imaging can be used. In addition, a nonlinear MACH filter can be utilized for helping the information authentication. Therefore, in this paper, we use integral imaging and nonlinear MACH filter to implement the information authentication of photon counting DRPE. To verify our method, we implement optical experiments and computer simulation.

Single Photon Detectors Technologies Development Trends for Quantum Information (단일광자 검출기 기술개발 동향)

  • Lee, W.J.;Sim, J.S.;Youn, C.J.
    • Electronics and Telecommunications Trends
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    • v.35 no.4
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    • pp.21-33
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    • 2020
  • Single photon detector technologies have emerged as powerful tools in optical quantum information applications such as quantum communication, quantum information, and integrated quantum photonics. Owing to significant attempts in the previous decade at improving photon-counting detectors, several single photon detectors with high efficiency and low noise have been realized within the optical wavelength regime. In this paper, we provide an overview of current studies on single photon detectors operating at wavelengths from the ultraviolet to the infrared. In addition, we discuss applications of single photon detector technologies in quantum communication and integrated quantum photonics.