Seminar on Advanced Energy Engineering Science No.15 (2016-vol. 1) 平成 28 年度 第1回 先端エネルギー理工学セミナーのお知らせ Seminar on Advanced Energy Engineering Science 下記のとおり、先端エネルギー理工セミナーを開催致します。通常通り単位取得の一環にな りますので、奮って参加いただきますよう、ご案内申し上げます。 記 対象:大学院学生(修士、博士) /For master students and Ph.D. students 日時:2016 年 6 月 23 日(木)15:00-16:30/Jun. 23, 2016 (Thr.) 15:00-16:30 場所:総合理工学府 H 棟(先端エネルギー理工学専攻棟)2階講義室 /Lecture Room on 2F in H building 講演者:Prof. Dr. Michel Koenig (Laboratoire pour l'Utilisation de Lasers Intenses / Institute for Academic Initiatives, Osaka University) 講演題目:Radiation hydrodynamic experiments and laboratory astrophysics: Applications to radiative shocks High energy density physics (HEDP) in the laboratory is a new field that has emerged in the last two decades thanks to the development of pulsed, high-energy/high power laser facilities. One of the most relevant HEDP areas is astrophysics where conditions are similarly reproduced according to scaling laws.In this talk, I will present basics of radiation hydrodynamics, in particular radiative shocks. Then I will describe in general what is laboratory astrophysics, how the space situation can be reproduced in the laboratory. Then I will focus on recent research performed at LULI laboratory connected to astrophysical situations. This will concern radiative shocks occurring in supernovae explosions, in magneto-spherical accretion in young stellar objects, in cataclysmic variables (mCVs) as well as in accreting neutron stars. During the last ten years European scientists have been international leaders in this area, exploiting competitive EU facilities (LULI2000, VULCAN, LIL, ORION, GEKKO XII & in the near future LMJ+PETAL). In this new field, 2D-3D radiation hydrodynamics simulations are necessary both to design experiments and to perform relevant analysis of experimental data. In this talk, I will show both experimental results obtained on the major EU facilities and the GekkoXII laser (Japan) and the associated hydrodynamic simulations. These are performed with the HEDP version of the FLASH code, developed at the University of Chicago with inputs coming from the laser-plasma community. 問い合わせ先:[email protected] 【単位認定について】 先端エネルギー理工学特別講義 第二<M3902>または先端エネルギー理工学特別講義 第一<M3901>※の単位として認定さ れます。 先端エネルギー理工学セミナー Seminar on Advanced Energy Engineering Science は バウチャー制を採用しており、7 回 当セミナーを受講した学生には 1 単位が認定されることになっています。先端エネル ギー理工学専攻の学生はもちろん、先端エネルギー理工学専攻以外の学生諸君も是非聴講して下さい。 ※第一<M3901>の単位認定は英語による講義が対象 Seminar on Advanced Energy Engineering Science No.15 (2016-vol. 1) [Recognition of Credit] By attending this seminar, you can earn credit for Advanced Energy Engineering Science's Special Lecture 2nd <M3902> or Special Lecture 1st <M3901>.* Seminars on Advanced Energy Engineering Science are taking to the concept of voucher system, which awards one credit to the students who have attended the ones 7 times. Not only students for Department of Advanced Energy Engineering Science but other departments' students are also welcomed to audit the seminars. *Recognition of credit for the Special Lecture 1st<M3901> is only applicable for seminars conducted in English.
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