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Fully Differential Study of Dissociative Capture from H2, D2, and HD by Proton Impact

来源:合肥微尺度物质科学国家研究中心
报告题目   Fully Differential Study of Dissociative Capture from H2, D2, and HD by Proton Impact
报告人   Prof. Michael schulz
报告人单位   Missouri University of Science and Technology
报告时间   2024-10-16 09:30:00
报告地点   物质科研C楼C601
主办单位   合肥微尺度物质科学国家研究中心,物理学院
报告介绍

Abstract:

         Quantum interference is the heart of quantum mechanics. It occurs when two or more quantum states overlap, leading to a combined probability amplitude that can result in constructive or destructive interference. Prof. Schulz will present the quantum interference at single atom/molecule level. The experiment was performed by proton impact-induced dissociative capture from H2, D2, and HD molecules. Rich single- and two-center interference phenomena will be showcased. In particular, the projectile coherence effects will be introduced.

Biography:

         Michael Schulz,Chancellors’ Professor of Physics, Department of Physics, Missouri University of Science & Technology (MUST). Pro. Schulz graduated from Heidelberg University in 1980 and finished the Diplom and Ph.D. degrees in 1984 and 1987, respectively. Michael has deep experience working in Heidelberg University, Oak Ridge National Laboratory, Kansan state University, and University of Missouri-Rolla. Since 2002, he has been a full professor at the (MUST). He was the director of laboratory for AMO research at MUST and He is the Curators’ Distinguished Professor of MUST. He was the visiting professor of Freibury/Frankfurt University and Max-Planck Institute for nuclear physics. He has been awarded multiple times (>15) by University of Missouri-Rolla, DFG, APS and CAS. Prof. Schulz is APS fellow and obtained the Chinese Academy of Sciences President’s International Fellowship for Distinguished Scientists. Prof. Schulz is a world leader of the collision dynamics in AMO field and has collaborations around the world. He has contributed more than 150 invited talks, 2 books and about 200 publications including Nature, and more than 30 PRL papers.

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