Investigating the superconductor-insulator transition in thin films using drag resistance: Theoretical analysis of a proposed experiment
نویسندگان
چکیده
The magnetically driven superconductor-insulator transition in amorphous thin films e.g., InO and Ta exhibits several mysterious phenomena, such as a putative metallic phase and a huge magnetoresistance peak. Unfortunately, several conflicting categories of theories, particularly quantum-vortex condensation, and normal region percolation, explain key observations equally well. We present a experimental setup, an amorphous thin-film bilayer, where a drag resistance measurement would clarify the role quantum vortices play in the transition, and hence decisively point to the correct picture. We provide a thorough analysis of the device, which shows that the vortex paradigm gives rise to a drag with an opposite sign and orders of magnitude larger than the drag measured if competing paradigms apply.
منابع مشابه
Theoretical analysis of drag resistance in amorphous thin films exhibiting superconductor-insulator transitions
The magnetical field tuned superconductor-insulator transition in amorphous thin films, e.g., Ta and InO, exhibits a range of yet unexplained curious phenomena, such as a putative low-resistance metallic phase intervening the superconducting and the insulating phase, and a huge peak in the magnetoresistance at large magnetic field. Qualitatively, the phenomena can be explained equally well with...
متن کاملElectron Quasiparticles Drive the Superconductor - to - Insulator Transition in Homogeneously Disordered Thin Films
Transport data on Bi, MoGe, and PbBi/Ge homogeneously-disordered thin films demonstrate that the critical resistivity, Rc, at the nominal insulator-superconductor transition is linearly proportional to the normal sheet resistance, RN . In addition, the critical magnetic field scales linearly with the superconducting energy gap and is well-approximated by Hc2. Because RN is determined at high te...
متن کاملar X iv : c on d - m at / 0 10 45 04 v 2 8 O ct 2 00 1 Electron Quasiparticles Drive the Superconductor - to - Insulator Transition in Homogeneously Disordered Thin Films
Transport data on Bi, MoGe, and PbBi/Ge homogeneously-disordered thin films demonstrate that the critical resistivity, Rc, at the nominal insulator-superconductor transition is linearly proportional to the normal sheet resistance, RN . In addition, the critical magnetic field scales linearly with the superconducting energy gap and is well-approximated by Hc2. Because RN is determined at high te...
متن کاملThe Superconductor Insulator Transition
As the thickness or magnetic field is varied in thin films a transition between superconducting and insulating phases takes place. This quantum phase transition obeys scaling relations and occurs at seemingly universal critical resistance. This paper reviews experiments that demonstrate this transition and measure the critical exponents. The microscopic theories are outlined and lead to differe...
متن کاملNature of the superconductor - insulator transition in disordered thin films
Submitted for the MAR08 Meeting of The American Physical Society Nature of the superconductor-insulator transition in disordered thin films YONATAN DUBI, Physics Department, University of California-San Diego, YIGAL MEIR, YSHAI AVISHAI, Department of Physics and The Ilse Katz Center for Mesoand Nano-Scale Science and Technology, Ben Gurion University, Beer Sheva 84105, Israel — Highly disordere...
متن کامل