古天乐代言太阳集团网址
网站地图
加入收藏
中文
English
首页
中心概况
研究队伍
科学研究
交流合作
人才培养
人才招聘
当前位置:
首页
-
交流合作
-
大师讲堂
- 正文
大师讲堂
专题学术讲座
学术会议
中心报告会
大师讲堂
大师讲堂第三讲:Spin Polarized Tunneling, Spin Filtering and Interface Effects
2014年6月4日(周三)上午11点,量子物质科学协同创新中心清华分中心大师讲座四:
报告题目:
Spin Polarized Tunneling, Spin Filtering and Interface Effects
报 告 人:
Jagadeesh S. Moodera Physics Department and Francis Bitter Magnet Laboratory, Massachusetts Institute of Technology
时间:
2014-6-4 11:00
地点:
理科楼三楼报告厅
摘要:
Spin polarized tunneling (SPT) discovered by Robert Meservey and Paul Tedrow, is a powerful method to investigate high field properties of superconductors, spin polarization of tunneling electrons from ferromagnetic metals, ferromagnetic onset etc., has subsequently led to the discovery of tunnel magnetoresistance (TMR) in magnetic tunnel junctions. SPT has been widely explored in recent spintronic studies, whereas the spin filter (SF) tunneling is one of the later developments. SF occurs due to the high selectivity of either spin-up or -down electrons in quantum tunneling through a magnetic barrier, and is a unique way to generate highly spin-polarized tunnel currents using nonmagnetic electrodes. Another important feature of magnetic insulators is to provide a large effective internal exchange field locally confined to an interface, making them especially powerful in modifying adjacent one or two-dimensional electronic structures. For example, in one of our recent studies this phenomenon can be dramatically seen in verifying de Gennes’ decades old theoretical prediction of manipulating superconducting state in FI/S/FI (FI-ferromagnetic insulator; S-superconductor) trilayer structure by the magnetization direction of the two FI layers, thus creating a nonvolatile two-level memory state.
Spin transport in organic semiconductors (OS) has the potential in realizing the goal of information storage and computing at the molecular level in a straightforward way. The charge and spin transport at OS and ferromagnetic metal interface, although complex is one of the richest areas, which has the needed capabilities and potential for achieving molecular level spintronics. Our spin tunneling studies through layers of OS molecules show unexpected exchange coupling induced ferromagnetic and spin filter behavior at the ferromagnet/OS interfaces, showing the future possibility for information storage and manipulation in individual molecules.
In the talk we shall give an overview of these phenomena.
个人简介:
Dr. Jagadeesh Moodera is a senior research scientist and a group leader (Thin Film Magnetism, Tunneling and Nanospintronics) at Physics Department, MIT. He obtained his Ph.D (Physics) from the Indian Institute of Technology. His research interests are (experimental): Spin tunneling, co-existence of ferromagnetism and superconductivity, superconductors in an internal exchange field, molecular spintronics, spin transport and exchange effects in topological insulator films, Majorana fermions. He is a Fellow of APS, won among other awards the Oliver Buckley Prize from the American Physical Society. He is a visiting professor at Applied Physics Department, Eindhoven Technical University (The Netherlands), at Institute for Quantum Computing/Univ. of Waterloo (Canada), and is a Distinguished Institute Professor, Indian Institute of Technology (Chennai, India).
版权所有 量子物质科学协同创新中心
本页已经浏览
次