Effects of spin on transport in single molecule junctions
by David Rakhmilevitch
at Condensed Matter Seminar
Mon, 11 Apr 2016, 11:30
Physics building (#54) room 207
Abstract
Spin based electronics has a large impact on daily life being the back bone of modern data storage technology Exploiting the spin degree of freedom has the potential advantages of non volatility and decreased electric power consumption as compared to conventional semiconductor electronic devices Currently the main efforts in the field are directed toward miniaturization of spintronic devices while increasing the spin injection in such devices to maintain a significant response to magnetic field However further progress in the field requires a comprehensive understanding of spin transport at the atomic scale Molecular junctions composed of a single molecule suspended in between two metallic electrodes are natural candidates for this task In this talk I will describe recent experiments conducted on molecular junctions consisting of a benzene molecule bridging two ferromagnetic electrodes in a mechanically controllable break junction device Using conventional transport measurements we show that the presence of a molecule in our devices can result in an enhanced response to magnetic field The magneto resistive response is found to be tunable by changing the inter electrode distance Our findings will be explained in the context of selective orbital hybridization As a complementary perspective I will describe transport measurements on molecular junctions composed of a paramagnetic molecule suspended between two non magnetic silver electrodes Differential conductance spectroscopy measurements on such molecular junctions reveal both zero bias and finite bias conductance peaks Both peaks are shown to result from Kondo resonances Moreover we provide the first unambiguous demonstration of the vibration mediated Kondo effect Our experimental results shed light on the nature of electron vibration interaction in the presence of many body electron correlation such as a Kondo state
Created on 08-04-2016 by Bar Lev, Yevgeny (ybarlev)
Updaded on 08-04-2016 by Bar Lev, Yevgeny (ybarlev)