Studying the gamma- ray emission from the magnetar SGR 1900+ 14 with NASA swift mission /
Mona Molham Mostafa Elhalaby
Studying the gamma- ray emission from the magnetar SGR 1900+ 14 with NASA swift mission / Swift الرصوده بالبعثه الفضائيه SGR 1900=14 دراسة الأشعاعات ذات الطاقات العلية من الماجنيتار Mona Molham Mostafa Elhalaby ; Supervised Mohammed Abdelaziz Rassem , Alaa Ibrahim Hussein - Cairo : Mona Molham Mostafa Elhalaby , 2012 - 104P. : charts , facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Astronomy and Meteorology
Magnetars are newly discovered cosmic sources of high engergy radiations that emit short intense bursts of x - rays and -rays. Studying the spectral and temporal properties of these bursts of SGR 1900+14 allows us to identify the physical mechanism responsible for their emission and to probe the interaction of radiation and matter at extreme conditions of temperature gravity and magnetic field that cannot be reproduced in earth - based laboratories or paticle accelerators
Gamma rays Individual (SGR 1900=14) Stars
Studying the gamma- ray emission from the magnetar SGR 1900+ 14 with NASA swift mission / Swift الرصوده بالبعثه الفضائيه SGR 1900=14 دراسة الأشعاعات ذات الطاقات العلية من الماجنيتار Mona Molham Mostafa Elhalaby ; Supervised Mohammed Abdelaziz Rassem , Alaa Ibrahim Hussein - Cairo : Mona Molham Mostafa Elhalaby , 2012 - 104P. : charts , facsimiles ; 25cm
Thesis (M.Sc.) - Cairo University - Faculty of Science - Department of Astronomy and Meteorology
Magnetars are newly discovered cosmic sources of high engergy radiations that emit short intense bursts of x - rays and -rays. Studying the spectral and temporal properties of these bursts of SGR 1900+14 allows us to identify the physical mechanism responsible for their emission and to probe the interaction of radiation and matter at extreme conditions of temperature gravity and magnetic field that cannot be reproduced in earth - based laboratories or paticle accelerators
Gamma rays Individual (SGR 1900=14) Stars