<<<「@」を「__AT__」に置き換えています>>> From: etsuko itou Date: Sat, 6 Mar 2021 14:25:12 +0900 To: sglSubject: [Sg-l:5648] Problem Solving in Lattice QCD Summer School [First Announcement] 素粒子論グループの皆様 6月28日から7月16日までオンラインで開催される格子QCDサマースクールのご案内です。 https://sites.google.com/uw.edu/lqcdschool2021 対象は、大学院生(特にM1 - D1くらい)で、格子QCDの経験がない方も歓迎です。 そのためSg-lを受け取っていない学生にも転送して頂けると幸いです。 このスクールは元々ラティス国際会議(Lattice2021)のサテライトスクールとして、 シアトルで開催される予定でしたが、コロナ禍のためオンライン開催となりました。 内容は格子QCDの基礎からその応用、量子計算、ディープラーニング等の講義演習です。 jupyter notebookを使ったpythonコードの演習もあります。 レジストレーションは4月から始まりますが、 日程確保のために案内をお送りしています。 レジストレーションが始まりましたら、改めてご案内いたします。 私も世話人の一人ですので、ご不明な点がありましたら何なりとご連絡ください。 どうぞよろしくお願いいたします。 伊藤 悦子 (京大 基研) ============ Dear Colleagues, We are pleased to announce the INT Summer School on *Problem Solving in Lattice QCD* to be held from June 28 to July 16, 2021. Due to COVID, we currently expect to host the school online and will open applications later in the Spring. The school will have half-day synchronous sessions with ample time for discussion and working on problems. The lectures will aim at the level of students who have completed graduate courses in quantum field theory. No prior lattice-QCD experience is required. We are targeting participation by 40 students. Students should have some prior experience with basic Python programming and be comfortable working in Jupyter notebooks. For those who lack this background, a set of self-learning materials will be provided with the detailed instructions. All courses will be based on a flipped classroom; that is, the students will come to class after learning on their own from videos that introduce the physics background and having completed a pre-lecture assignment due the day before the class. During the class, the lectures will only focus on aspects that students had trouble with in the pre-lecture assignment and introduce more difficult problems. The students will then work together in groups of four to complete more advanced assignments. Priority will be given to URM students and those who commit to the flipped classroom and group work learning. School topics will include the following: Introduction to LQCD, Hadron Spectroscopy and Resonance, High-Performance Computing, Hadron Structure, Nonzero Temperature and Density QCD, Heavy-Flavor Physics, Machine Learning for Lattice-QCD Applications, Quantum Computing and Simulation, and Nuclear Physics and BSM on the Lattice For further information, including (future) application procedures, please refer to the website: https://sites.google.com/uw.edu/lqcdschool2021 Sincerely, The INT Lattice-QCD Summer-School Organizers -- ?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~? Etsuko Itou Yukawa Institute for Theoretical Physics, Kyoto University Kitashirakawa Oiwakecho, Sakyo-ku, Kyoto 606-8502 Japan Department of Physics, and Research and Education Center for Natural Sciences, Keio University, 4-1-1 Hiyoshi, Yokohama, Kanagawa 223-8521, Japan Department of Mathematics and Physics, Kochi University, 2-5-1 Akebono-cho, Kochi 780-8520, Japan Research Center for Nuclear Physics (RCNP), Osaka University, 10-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan E-mail: etsukoitou__AT__keio.jp E-mail: itou__AT__yukawa.kyoto-u.ac.jp http://www2.yukawa.kyoto-u.ac.jp/~itou/ %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%% From: etsuko itou Date: Sat, 10 Apr 2021 10:11:56 +0900 To: sgl Subject: [Sg-l:5747] Problem Solving in Lattice QCD Summer School [2nd Announcement] 素粒子論グループの皆様 6月28日から7月16日までオンラインで開催される格子QCDのサマースクールの案内です。 WebSiteはこちらです。 https://sites.google.com/uw.edu/lqcdschool2021 レジストレーションが始まりました。4月30日 (11:59 PM EDT)が締め切りです。 https://www.mathprograms.org/db/programs/1113 対象は、大学院生(特にM1 - D1くらい)で、格子QCDの経験がない方も歓迎です。 そのためSg-lを受け取っていない学生にも転送して頂けると幸いです。 (ポスターのPDFも添付いたしますのでご活用ください。) このスクールは元々ラティス国際会議(Lattice2021)のサテライトスクールとして、 シアトルで開催される予定でしたが、コロナ禍のためオンライン開催となりました。 主な内容と講師は以下のとおりです。 Introduction to LQCD (Michael Creutz) Hadron Spectroscopy and Resonances (Raul Briceno) High-Performance Computing (Meifeng Lin) Structure of Hadrons (Sara Collins) Nonzero Temperature and Density QCD (Francesca Cuteri) Flavor Physics on the Lattice (Christopher Aubin) Heavy-Flavor Physics (Takashi Kaneko) Machine Learning for Lattice-QCD Applications (Phiala Shanahan) Quantum Computation and Simulation (Masazumi Honda/Zohreh Davoudi) Light Nuclei from Lattice QCD (Amy Nicholson) Physics Beyond the Standard Model on the Lattice (Ethan Neil) 特に、flipped classroomという方式をとることが特徴で、受講者は事前にビデオで講義を聞き、リアルタイムの講義時間には問題演習に取り組み、講師に質問したり少人数での議論を行います。 (「リアルタイムで講義を受けて家で宿題をする」の逆で、「家で講義を受けてリアルタイムで問題を解く」という意味で、flippedというそうです) 私も世話人の一人ですので、ご不明な点がありましたら何なりとご連絡ください。 どうぞよろしくお願いいたします。 伊藤 悦子 (理研) ==== Dear Colleagues, We are pleased to announce the INT Summer School on Problem Solving in Lattice QCD, to be held from June 28 to July 16, 2021. Due to the COVID-19 pandemic, the school will be held virtually. The school will have asynchronous pre-class learning and half-day synchronous sessions with ample time for discussion and problem solving. For further information, please refer to the school website: https://sites.google.com/uw.edu/lqcdschool2021 The courses will aim at the level of students who have completed graduate courses in quantum field theory. No prior lattice-QCD experience is required. We are targeting participation of around 40 students. Students should have some prior experience with basic Python programming and be comfortable working in Jupyter notebooks. For those who lack this background, a set of self-learning materials will be provided with the detailed instructions. The school application is now open at https://www.mathprograms.org/db/programs/1113 . The application deadline is April 30th, 11:59 PM EDT. Successful applicants will receive notification before May 17. All courses will be based on a flipped classroom; that is, the students will come to class after learning on their own from videos that introduce the physics background and after completing a pre-lecture assignment due the day before the class. During the class, the lectures will focus on aspects that students had trouble with in the pre-lecture assignment and introduce more difficult problems. The students will then work together in small groups to complete more advanced assignments. Priority will be given to URM students and those who commit to the flipped classroom and group-work learning. School topics will include the following: Introduction to LQCD (Michael Creutz), Hadron Spectroscopy and Resonances (Raul Briceno), High-Performance Computing (Meifeng Lin), Structure of Hadrons (Sara Collins), Nonzero Temperature and Density QCD (Francesca Cuteri), Flavor Physics on the Lattice (Christopher Aubin), Heavy-Flavor Physics (Takashi Kaneko), Machine Learning for Lattice-QCD Applications (Phiala Shanahan), Quantum Computation and Simulation (Masazumi Honda/Zohreh Davoudi), Light Nuclei from Lattice QCD (Amy Nicholson) and Physics Beyond the Standard Model on the Lattice (Ethan Neil). More details on the instructors can be found here: https://sites.google.com/uw.edu/lqcdschool2021/instructors Additional events, including career-advising events, are planned for the three weeks of the summer school. More details will be provided on the school website and Facebook page. Sincerely, The INT Lattice-QCD Summer-School Organizers Maxwell Hansen Etsuko Itou Huey-Wen Lin Konstantinos Orginos -- ?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~?~??~? Etsuko Itou Strangeness Nuclear Physics Laboratory RIKEN Nishina Center, Wako 351-0198, Japan Department of Physics, and Research and Education Center for Natural Sciences, Keio University, 4-1-1 Hiyoshi, Yokohama, Kanagawa 223-8521, Japan Research Center for Nuclear Physics (RCNP), Osaka University, 10-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan E-mail: etsuko.itou__AT__ riken.jp E-mail: itou__AT__yukawa.kyoto-u.ac.jp http://www2.yukawa.kyoto-u.ac.jp/~itou/ --0000000000009ff33405bf93f957 Content-Type: application/pdf; name="lattice-school-2021-poster.pdf" Content-Disposition: attachment; filename="lattice-school-2021-poster.pdf" Content-Transfer-Encoding: base64 Content-ID: X-Attachment-Id: f_knb1krr30 <<< 現在見ているURLの 21_07 の部分を 21_07.pdf に変更すると御覧になれます。