Relevant bibliographies by topics / Gamma-gamma coincidence

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

Academic literature on the topic 'Gamma-gamma coincidence'

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

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Journal articles on the topic "Gamma-gamma coincidence"

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Drescher, A., M. Yoho, and S. Landsberger. "Gamma–gamma coincidence in neutron activation analysis." Journal of Radioanalytical and Nuclear Chemistry 318, no. 1 (2018): 527–32. http://dx.doi.org/10.1007/s10967-018-6033-8.

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Luca, A., P. De Felice, and G. Tanase. "Low level gamma spectrometry by beta–gamma coincidence." Applied Radiation and Isotopes 53, no. 1-2 (2000): 221–24. http://dx.doi.org/10.1016/s0969-8043(00)00137-8.

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McGrath, C. A., P. E. Garrett, M. F. Villani, and S. W. Yates. "Gamma–gamma coincidence measurements following inelastic neutron scattering." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 421, no. 3 (1999): 458–63. http://dx.doi.org/10.1016/s0168-9002(98)01170-x.

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Dinh, Hien Sy. "EXPERIMENTAL STUDY ON THE POSSIBILITY OF REDUCING BACKGROUND FOR THE GAMMA COINCIDENCE SPECTROMETER WITH HIGH PURE GERMANIUM DETECTORS." Science and Technology Development Journal 15, no. 2 (2012): 15–26. http://dx.doi.org/10.32508/stdj.v15i2.1797.

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Gamma coincidence spectrometers with HPGe detectors are used for environmental research, nuclear reactions (n, g), (n, 2g) due to Compton backgrounds of their gamma spectra are very low. In this work, three types of coincidence spectrometers such as gamma coincidence spectrometer, gamma coincidence spectrometers with TAC and sum coincidence spectrometer using HPGe are described. Some experimental results obtained by using gamma coincidence spectrometers are presented. Especially, taking advantages of the software and hardware of the sum coincidence spectrometer used for research of nuclear reactions (n, g), (n, 2g), we have converted the spectrometer to one with very low background level.
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Marković, Nikola, Per Roos, and Sven Poul Nielsen. "Digital gamma-gamma coincidence HPGe system for environmental analysis." Applied Radiation and Isotopes 126 (August 2017): 194–96. http://dx.doi.org/10.1016/j.apradiso.2016.12.017.

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Truong, Minh Van, Hung Minh Tran, Khang Dinh Pham, Hai Xuan Nguyen, Thang Huu Ho, and Anh Ngoc Nguyen. "Capability of gamma - gamma coincidence menthod to analyse arsenic and selenium." Science and Technology Development Journal 17, no. 2 (2014): 82–89. http://dx.doi.org/10.32508/stdj.v17i2.1317.

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The advantage of gamma – gamma coincidence method is abilities of background reduction. This technique has been studied and applications for neutron activation analysis. The experimental neutron activation analysis of geological samples, biological samples and environmental samples has been conducted by several some laboratories in the world. In this study, we would like to present the results of Arsenic and Selenium determination in geology sample by neutron activation analysis with technique of gamma – gamma coincidence measurement. By application of this gamma – gamma coincidence method, the influence isotopes as 182Ta, 181Hf, 152Eu were eliminated output from spectrometric measurement when analyzing 75Se and effects of overlap peaks from spectrometric measurement when analyzing arsenic.Thus improved detection limits for Arsenic and selenium in geological samples when analyzed by neutron activation analysis method.
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Yuan, Daqing, QiZhi Liu, Yuandi Yang, et al. "Digital Coincidence System for beta-gamma Coincidence Counting." Nuclear Physics A 834, no. 1-4 (2010): 773c—776c. http://dx.doi.org/10.1016/j.nuclphysa.2010.01.143.

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Vobecký, M., J. Jakůbek, C. Granja Bustamante, et al. "Multielement instrumental activation analysis based on gamma–gamma coincidence spectroscopy." Analytica Chimica Acta 386, no. 1-2 (1999): 181–89. http://dx.doi.org/10.1016/s0003-2670(99)00005-7.

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Jakůbek, J., P. Nuiten, J. Pluhař, et al. "Coincidence gamma–gamma spectroscopy system for instrumental neutron activation analysis." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 414, no. 2-3 (1998): 261–64. http://dx.doi.org/10.1016/s0168-9002(98)00497-5.

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Bikit, I., I. Aničin, and J. Slivka. "Optimum time for gamma-gamma coincidence measurements of decaying sources." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 269, no. 1 (1988): 329–32. http://dx.doi.org/10.1016/0168-9002(88)90897-2.

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Dissertations / Theses on the topic "Gamma-gamma coincidence"

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Easton, Jayson Lee. "New bands in ¹⁹²Tl using gamma spectroscopy techniques." University of the Western Cape, 2011. http://hdl.handle.net/11394/5419.

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>Magister Scientiae - MSc<br>High spin excited stats in¹⁹²Tl were studied using gamma-ray spectroscopy. The study included taking an active part in performing the experiment, understanding the experimental procedure, electronics and data acquisition in this experiment. The high spin states in ¹⁹²Tl were produced using a ³⁷Cl beam and ¹⁶⁰Gd target. The nine clovers of the AFRODITE array were placed at 90° and 135°. The target was thin, allowing the residual thallium nuclei to recoil in vacuum. Two weeks of data was acquired and analysed in this work. In addition more data was acquired in order to perform DSAM lifetime measurements, but this is beyond the scope of this work. The preliminary data analysis of the thin target data involved energy and time-gain matching calibrations as well as Doppler shift and gain drift corrections. Then the data were sorted into matrices and spectra for the actual analysis. The known level scheme of ¹⁹²Tl was extended by more than 50 new transitions placed in three new bands. A chiral partner to the yrast band in ¹⁹²92Tl was searched for but not found. But there is still a possibility such a band to be discovered, when the additional three weekends of data (including the DSAM lifetime measurements) undergo such an analysis.
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Oates, Sean Benjamin. "Structure of the nucleus ¹¹⁴Sn using gamma-ray coincidence data." Thesis, Rhodes University, 2015. http://hdl.handle.net/10962/d1019870.

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Paradis, Hugues. "Développement de la mesure par spectrométrie gamma en coïncidence." Thesis, Université Paris-Saclay (ComUE), 2016. http://www.theses.fr/2016SACLS215/document.

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Dans le cadre de la mission de surveillance radiologique de l’environnement de l’Institut de Radioprotection et de Sûreté Nucléaire (IRSN), le Laboratoire de Mesure de la Radioactivité dans l’Environnement (LMRE) réalise la mesure de la concentration en activité dans différentes matrices environnementales. Il s’agit de matrices biologiques (mousses aquatiques, algues, lait, légumes …), de sols, d’eaux ou encore de filtres de prélèvement d’aérosols.Les radionucléides artificiels recherchés sont en très faible proportion par rapport à certains radionucléides naturels : le potassium 40 dans les matrices biologiques ou encore les descendants particulaires du radon dans les filtres d’aérosols. L’important fond Compton induit par ces radionucléides naturels dans le spectre gamma complique la détermination des radionucléides présents au niveau trace.Un moyen de s’affranchir de ce fond Compton est de faire une mesure par spectrométrie $gamma$ en coïncidence en utilisant au moins deux détecteurs. La méthode a été développée sur un système existant, le système anti-Compton constitué d’un détecteur germanium entouré d’un scintillateur NaI(Tl), avec le développement d’un algorithme d’analyse et de l’étalonnage par simulation Monte Carlo si nécessaire. De plus, un nouveau système de mesure en coïncidence a été conçu par simulation Monte Carlo puis mis en service pour pallier les limites du système anti-Compton. Ce nouveau système de mesure, nommé Léda, est composé de deux détecteurs germanium face à face, entourés d’un scintillateur NaI(Tl) ; il possède plusieurs voies de mesure, chacune présentant une amélioration en termes de limite de détection pour tous les radionucléides mesurés<br>The French Institute of Radiation Protection and Nuclear Safety (IRSN) is in charge of the radiological surveillance of the environment. In this framework the Laboratory of Environment Radioactivity Measurement (LMRE) measures the radioactivity concentrations in various environmental samples: biological matrices (aquatic moss, seaweed, milk, vegetables …), soils, waters or aerosol filters.Artificial radionuclides searched are in low proportion compared to natural radionuclides: potassium 40 in biological matrices or radon particular daughters in aerosol filters. The significant Compton continuum induced in the gamma spectrum makes difficult the identification and the quantification of radionuclides present at trace level.The use of two detectors enables to make coincident spectrometry in order to decrease this Compton background. This technique was developed with an existing system of the laboratory, the anti-Compton system, composed of a germanium detector surrounded by a NaI(Tl) scintillator. A data analysis algorithm was developed and also a Monte Carlo calibration if radionuclides measured are not available in standard source. Moreover a new coincident measurement system was designed by Monte Carlo simulation, called Leda consisting of two germanium detectors face to face surrounded by a NaI(Tl) scintillator. This new system overcomes the limits of the anti-Compton system. Different measurement channels improve the detection limits for all radionuclides measured in our laboratory
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FONSECA, KATIA A. "Medida absoluta da atividade e determinacao da taxa de emissao gama por decaimento do sup 126I." reponame:Repositório Institucional do IPEN, 1997. http://repositorio.ipen.br:8080/xmlui/handle/123456789/10495.

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Brasse, David. "Detection en coincidence des photons de 511 kev provenant de l'annihilation des positons sur gamma-camera conventionnelle : optimisation et analyse des potentialites." Paris 5, 1999. http://www.theses.fr/1999PA05N148.

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Löher, Bastian [Verfasser]. "Probing the decay characteristics of the Pygmy Dipole Resonance in the semi-magic nucleus 140 Ce with gamma-gamma coincidence measurements / Bastian Löher." Mainz : Universitätsbibliothek Mainz, 2014. http://d-nb.info/1054937206/34.

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Camborde, Marie-Laure A. "Use of beta-gamma coincidence to improve the quality of transmission scans for PET." Thesis, McGill University, 2001. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=33723.

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The availability of accurately aligned, whole body, functional PET images has a significant impact on the diagnosis of malignant disease and on identifying and localizing metastasis. Gamma ray attenuation correction is essential in all quantitative PET studies.<br>The object of this study was to explore the possibility of using beta-gamma coincidence as an attenuation correction technique in order to improve transmission scan image quality.<br>This study consisted of testing and implementing a beta-gamma attenuation correction technique on an animal PET scanner. In its final form the system uses 68Ge sources enclosed in plastic scintillator cylinders coupled to PMTs. The detection of positrons is activated by the energy loss in the scintillator medium. This system is used in coincidence with one of the animal PET scanner's BGO crystal detectors in order to acquire transmission scans.
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TAKEDA, MAURO N. "Determinacao da correcao para o efeito de soma em cascata para espectrometros de HPGe pelo metodo de Monte Carlo." reponame:Repositório Institucional do IPEN, 2001. http://repositorio.ipen.br:8080/xmlui/handle/123456789/10916.

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Ooi, Stanley Seong Ling. "A study of the γ-rays from the self-conjugate nuclei ⁶⁴Ge and ⁴⁸Cr using n-γ coincidence techniques". Thesis, University of Oxford, 1986. http://ora.ox.ac.uk/objects/uuid:99d3c76a-dcb9-44d9-8a9c-b69f58d7cbef.

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A neutron multiplicity detector system has been developed to study weak pure neutron evaporation channels from heavy-ion reactions. Such a system allows us to study nuclei far away from the line of β-stability - in particular, self-conjugate nuclei where the shell-effects for protons and neutrons are in phase and their combined effects may drive the nucleus towards superdeformation. The system consists of a neutron wall - 4 large volume Ge(Li) γ-ray detectors positioned as close as possible to the target. Neutron-gamma coincidences were recorded and neutron multiplicity events could be extracted from the data. Rejection of gamma-ray events in the neutron detectors was achieved by time-of-flight and pulse shape discrimination methods. A surface barrier detector at 0⁰ allowed a further rejection of charged particle events - especially events which feature neutrons as well.
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Daniel, Terver. "Nuclear structure studies of low-lying states in 194Os using fast-timing coincidence gamma-ray spectroscopy." Thesis, University of Surrey, 2017. http://epubs.surrey.ac.uk/813294/.

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The properties of excited states in the neutron-rich nucleus 194Os have been investigated using the 192Os(18O,16O)194Os 2 neutron transfer reaction using a 80 MeV 18O heavy-ion beam provided by the tandem van de Graaff accelerator at the IFIN-HH laboratory Bucharest. Discrete γ-ray decays from excited states have been measured using the hybrid HPGe-LaBr3(Ce) γ-ray spectroscopic array RoSPHERE. The timing and energy response of the RoSPHERE system have been evaluated using a number of point radioactive sources and through other nuclear reaction products formed from reactions on minor target contaminants as well as via unsafe Coulomb excitation on the 192Os target. The work identifies a number of previously unreported low lying non-yrast states in 194Os as well as the first B(E2;2+ → 0+) measurement for this nucleus. The experimental results are compared with HFB/IBM calculations and are consistent with a reduction in a quadrupole collectivity in Os isotopes with increasing N.
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Books on the topic "Gamma-gamma coincidence"

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Abuelhia, Elfatih Ibrahim. Positron and gamma-gamma coincidence emission tomography. 1997.

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Samartzis, Alexandros. Array block detectors for cascade gamma ray measurements in coincidence. 1994.

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Stuewer, Roger H. Nuclear Electrons and Nuclear Structure. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198827870.003.0006.

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Serious contradictions to the existence of electrons in nuclei impinged in one way or another on the theory of beta decay and became acute when Charles Ellis and William Wooster proved, in an experimental tour de force in 1927, that beta particles are emitted from a radioactive nucleus with a continuous distribution of energies. Bohr concluded that energy is not conserved in the nucleus, an idea that Wolfgang Pauli vigorously opposed. Another puzzle arose in alpha-particle experiments. Walther Bothe and his co-workers used his coincidence method in 1928–30 and concluded that energetic gamma rays are produced when polonium alpha particles bombard beryllium and other light nuclei. That stimulated Frédéric Joliot and Irène Curie to carry out related experiments. These experimental results were thoroughly discussed at a conference that Enrico Fermi organized in Rome in October 1931, whose proceedings included the first publication of Pauli’s neutrino hypothesis.
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Wright, A. G. Linear performance. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780199565092.003.0009.

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This chapter is concerned with a single consideration: the degree of proportionality between a light signal and its resulting electrical output. This is formally referred to as linearity, which depends on the suitability of the chosen PMT and the mode of operation (pulsed or analogue). Applications fall into two groups: analogue operation (DC) and transient applications. Linearity in a pulsed mode of operation concerns both pulse height (charge) and the rate of events. Generally, in the DC mode, only the mean anode current is relevant. Methods for determining both forms of non-linearity are presented, based on actual measurements. Test methods using multiple light sources, bootstrapping, single step (piggyback), and shot noise are investigated. A method for uncovering non-linearity in high-Z scintillators by using coincident gamma emissions (60Co) is demonstrated. An analytical means for correcting results at the 1 % level is provided.
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Book chapters on the topic "Gamma-gamma coincidence"

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Bähre, M. "Optimization of gamma camera coincidence systems for PET in oncology." In PET in Clinical Oncology. Steinkopff, 2000. http://dx.doi.org/10.1007/978-3-642-57703-1_9.

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Maselli, Andrea, and Valeria Ferrari. "Coincidence Searches of Gravitational Waves and Short Gamma-Ray Bursts." In Gravitational Wave Astrophysics. Springer International Publishing, 2014. http://dx.doi.org/10.1007/978-3-319-10488-1_7.

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Grahek, D., F. Montravers, N. Ghazzar, et al. "Assessment of Pulmonary Nodules and Colorectal Cancer Recurrences by FDG Scan on an «Ordinary» Coincidence Gamma Camera (CDET)." In Radioactive Isotopes in Clinical Medicine and Research XXIII. Birkhäuser Basel, 1999. http://dx.doi.org/10.1007/978-3-0348-8782-3_30.

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Běták, E., and J. Dobeš. "Neutron-Gamma Coincident Calculations Within the Pre-Equilibrium Model." In Neutron Induced Reactions. Springer Netherlands, 1986. http://dx.doi.org/10.1007/978-94-009-4636-1_30.

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Mahmoud, Imbaby Ismail, and Mohamed S. El Tokhy. "Development of Algorithms and Their Hardware Implementation for Gamma Radiation Spectrometry." In Field-Programmable Gate Array (FPGA) Technologies for High Performance Instrumentation. IGI Global, 2016. http://dx.doi.org/10.4018/978-1-5225-0299-9.ch002.

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The chapter describes how to develop algorithms for Gamma ray spectrometry portable instruments and then to implement them on FPGA devices as hardware platform. At first we consider the development of more accurate spectrum evaluation programs including pileup detection and recovery, dead time correction, coincidence summing and resolution enhancement algorithms which are implemented in MATLAB. The input signals are obtained through experimental setup or simulated model. Four different approaches are studied and evaluated for peak pileup problem within a spectroscopy system. In addition, x-ray spectrum evaluation enhancements are carried out and several algorithms are developed and compared. Hardware implementation using Xilinx DSP Boards as well as further improvements and modifications are discussed.
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Conference papers on the topic "Gamma-gamma coincidence"

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Manatt, D. R., F. L. Barnes, J. A. Becker, J. V. Candy, E. A. Henry, and M. J. Brinkman. "Pattern Recognition in Gamma‐Gamma Coincidence Data sets." In Capture gamma‐ray spectroscopy. American Institute of Physics, 1991. http://dx.doi.org/10.1063/1.41219.

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DeMuth, David M., Marvin L. Marshak, and Greg L. Wagner. "Soudan 2 muons in coincidence with BATSE bursts." In Gamma-ray bursts: Second workshop. AIP, 1994. http://dx.doi.org/10.1063/1.45852.

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Mayer, J., V. Derya, J. Endres, et al. "The particle-gamma coincidence method: A brief introduction." In LA RABIDA 2012 INTERNATIONAL SCIENTIFIC MEETING ON NUCLEAR PHYSICS: Basic Concepts in Nuclear Physics: Theory, Experiments, and Applications. AIP, 2013. http://dx.doi.org/10.1063/1.4810824.

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Green, K. D. "Study of cosmic rays above 0.3 EeV using Fly’s Eye-muon array coincidence." In High Energy Gamma−Ray Astronomy. AIP, 1991. http://dx.doi.org/10.1063/1.40290.

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Egozi, Conny, Francis Martinez, Brandon De Luna, and Sheldon Landsberger. "A preliminary investigation for the use of gamma-gamma coincidence spectrometry to determine 239Pu." In RAD Conference. RAD Centre, 2021. http://dx.doi.org/10.21175/rad.abstr.book.2021.26.3.

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Drescher, Adam, Sheldon Landsberger, and Derek Haas. "Developing Support Vector Machine Prediction Capabilities of Uranium Enrichment Based on Gamma-Gamma Coincidence Signatures." In 2017 IEEE Nuclear Science Symposium and Medical Imaging Conference (NSS/MIC). IEEE, 2017. http://dx.doi.org/10.1109/nssmic.2017.8532792.

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Vandenberghe, Stefaan, Yves D'Asseler, Michel Koole, et al. "Iterative list mode reconstruction for coincidence data of gamma camera." In Medical Imaging 2000, edited by Kenneth M. Hanson. SPIE, 2000. http://dx.doi.org/10.1117/12.387667.

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Wang, E. H., A. Lemasson, J. H. Hamilton, et al. "NEW LEVELS IN 151-153Pr BY COMBINING HIGH STATISTICS GAMMA COINCIDENCE DATA AND MASS/Z GATED GAMMA SPECTRA." In International Symposium on Exotic Nuclei EXON-2014. WORLD SCIENTIFIC, 2015. http://dx.doi.org/10.1142/9789814699464_0038.

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Renaud, M., P. Goret, R. C. G. Chaves, Felix A. Aharonian, Werner Hofmann, and Frank Rieger. "On the nature of HESS J1503-582 revealed by the H.E.S.S. experiment: Coincidence with a FVW?" In HIGH ENERGY GAMMA-RAY ASTRONOMY: Proceedings of the 4th International Meeting on High Energy Gamma-Ray Astronomy. AIP, 2008. http://dx.doi.org/10.1063/1.3076660.

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Vigano', Daniele, and Sandro Mereghetti. "Observations of Gamma-ray Bursts with the INTEGRAL SPI Anti Coincidence." In The Extreme sky: Sampling the Universe above 10 keV. Sissa Medialab, 2010. http://dx.doi.org/10.22323/1.096.0049.

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Reports on the topic "Gamma-gamma coincidence"

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R.P. gandner, C.W. Mayo, W.A. Metwally, W. Zhang, W. Guo, and A. Shehata. Coincidence Prompt Gamma-Ray Neutron Activation Analysis. Office of Scientific and Technical Information (OSTI), 2002. http://dx.doi.org/10.2172/806598.

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Tai, Yuan-Chuan. Development of Simultaneous Beta-and-Coincidence-Gamma Imager for Plant Imaging Research. Office of Scientific and Technical Information (OSTI), 2016. http://dx.doi.org/10.2172/1329073.

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Kachulis, Chris. Calibration Analyses and Efficiency Studies for the Anti Coincidence Detector on the Fermi Gamma Ray Space Telescope. Office of Scientific and Technical Information (OSTI), 2011. http://dx.doi.org/10.2172/1017221.

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Janssens, R. V. F., C. N. Davids, and D. Blumenthal. Spectroscopy of {sup 189,187}Pb from gamma-FMA coincidences. Office of Scientific and Technical Information (OSTI), 1995. http://dx.doi.org/10.2172/166339.

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Flaska, Marek, and Sara A. Pozzi. Measurements of Separate Neutron and Gamma-Ray Coincidences with Liquid Scintillators and Digital PSD Technique. Office of Scientific and Technical Information (OSTI), 2007. http://dx.doi.org/10.2172/932640.

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