Please use this identifier to cite or link to this item: http://hdl.handle.net/10603/3945
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dc.coverage.spatialPhysicsen_US
dc.date.accessioned2012-05-01T07:02:03Z-
dc.date.available2012-05-01T07:02:03Z-
dc.date.issued2012-05-01-
dc.identifier.urihttp://hdl.handle.net/10603/3945-
dc.description.abstractHEX (High Energy X-ray Spectrometer) was one of the instruments on Chandrayaan- I, designed to detect and measure the intensity of high energy x-rays from 30 keV to 270 keV. The study of planetary radiation in this energy range is very challenging due to low signal strength and intense detector and planetary background emission. HEX consists of a CdZnTe compound semiconductor as the primary detector, and a CsI(Tl) scintillator as the secondary detector. The purpose of the secondary detector is to act as an anti-coincidence detector (ACD) to facilitate Compton suppression and background rejection in the primary detector. There were in total eleven experiments onboard the satellite, and the lifetime of the mission was planned to be two years; so there were constraints of size and weight of the various experimental payloads. This thesis addresses design optimization of the ACD in terms of the number of detectors and shield thickness. It also includes estimation of the background that would be seen by the CdZnTe detector of HEX, and the Compton suppression and background rejection e_ciency of the ACD. The predicted background includes contributions from high energy lunar albedo emission, and from the interaction of galactic cosmic rays with the payload and spacecraft. As a part of the ground work, the simulation codes and logic are validated against experimental and published results. The instrumental response of the CdZnTe and CsI(Tl) detectors are also simulated, using input from experimental data collected during calibration of the ight detectors. The Monte Carlo simulation toolkit, Geant4 is used extensively in this work. The methodology and results of the simulations, as well as experimental results and cross comparisons are presented in this work.en_US
dc.format.extentxii, 178p.en_US
dc.languageEnglishen_US
dc.relation--en_US
dc.rightsuniversityen_US
dc.titleMonte carlo simulations of the high energy X-ray spectrometer (HEX) on Chandrayaan-Ien_US
dc.creator.researcherSudhakar, Manjuen_US
dc.subject.keywordHigh Energy X-ray Spectrometeren_US
dc.subject.keywordChandrayaan-Ien_US
dc.subject.keywordMonte carloen_US
dc.subject.keywordPhysicsen_US
dc.description.noteBibliography p. 6, Conclusion p. 164-176en_US
dc.contributor.guideBabu, B R Sen_US
dc.contributor.guideSreekumar, Pen_US
dc.publisher.placeKozhikodeen_US
dc.publisher.universityUniversity of Calicuten_US
dc.publisher.institutionDepartment of Physicsen_US
dc.date.registeredn.d.en_US
dc.date.completedMarch, 2010en_US
dc.date.awarded2010en_US
dc.format.accompanyingmaterialNoneen_US
dc.type.degreePh.D.en_US
dc.source.inflibnetINFLIBNETen_US
Appears in Departments:Department of Physics

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01_title.pdfAttached File41.31 kBAdobe PDFView/Open
02_certificate.pdf28.93 kBAdobe PDFView/Open
03_declaration.pdf28.91 kBAdobe PDFView/Open
04_thought.pdf25.76 kBAdobe PDFView/Open
05_abstract.pdf21.5 kBAdobe PDFView/Open
06_contents.pdf63.94 kBAdobe PDFView/Open
07_abbreviation.pdf28.75 kBAdobe PDFView/Open
08_list of figures.pdf66.97 kBAdobe PDFView/Open
09_list of tables.pdf47.76 kBAdobe PDFView/Open
10_preface.pdf116.59 kBAdobe PDFView/Open
11_bibliography.pdf30.41 kBAdobe PDFView/Open
12_chapter 1.pdf266.95 kBAdobe PDFView/Open
13_chapter 2.pdf818.29 kBAdobe PDFView/Open
14_chapter 3.pdf733.56 kBAdobe PDFView/Open
15_chapter 4.pdf721.59 kBAdobe PDFView/Open
16_chapter 5.pdf361.5 kBAdobe PDFView/Open
17_conclusions.pdf139.19 kBAdobe PDFView/Open
18_list of publications.pdf34.79 kBAdobe PDFView/Open
19_acknowledgements.pdf23.24 kBAdobe PDFView/Open


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