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Design and assembly of a low temperature vacuum tunneling apparatus and preliminary measurements of the energy gap of an organic superconductor

Thesis/Dissertation ·
OSTI ID:7240747

A new approach to the design of a low temperature vacuum tunneling apparatus (VTA) is described along with pertinent construction details. Incorporated into the design is an automated tip positioning control combining a differential micrometer with piezoelectric transducers. Tests of apparatus performance included analysis of the noise spectrum of a tunnel junction, verification of the exponential dependence of current on distance, and determination of the energy gap for an ErRH/sub 4/B/sub 4/ single crystal. This apparatus is suitable for spectroscopic studies of metals, especially superconducting materials. Results include the first measurements on a single crystal of the newest ambient pressure organic superconductor ..beta..-(ET)/sub 2/AuI/sub 2/ i.e. ..beta..-(bis-ethylenedithiotetrathiafulvalene)/sub 2/AuI/sub 2/. Point-contact tunneling shows a surprisingly large energy gap ..delta..(0) in the electron excitation spectrum compared to T/sub c/ which is indicative of extremely strong electron-phonon coupling. Speculation that the origin of the large gap might be due to coupling to very low frequency modes is offered. Preliminary orientational measurements on a single crystal are suggestive of possible gap anisotropy. Noise measurements for vacuum tunneling between two Au electrodes shows the ubiquitous 1/f spectrum with a considerable temperature dependence. Evaluation of in situ cleaning of the sample surface by spark discharge is also included.

Research Organization:
Johns Hopkins Univ., Baltimore, MD (USA)
OSTI ID:
7240747
Country of Publication:
United States
Language:
English

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Related Subjects

36 MATERIALS SCIENCE
360603* -- Materials-- Properties
42 ENGINEERING
420800 -- Engineering-- Electronic Circuits & Devices-- (-1989)
ANISOTROPY
ELECTRONIC EQUIPMENT
ENERGY GAP
EQUIPMENT
MEASURING METHODS
NOISE
ORGANIC COMPOUNDS
PHYSICAL PROPERTIES
SUPERCONDUCTORS
THERMODYNAMIC PROPERTIES
TRANSITION TEMPERATURE