Title :
Self-Heating in Small Mesa Structures Made of Intrinsic Josephson Junctions in BSCCO
Author :
Suzuki, Minoru ; Yamada, Yoshiharu ; Tajitsu, Eriko ; Kojima, Shintaro
Author_Institution :
Kyoto Univ., Kyoto
fDate :
6/1/2007 12:00:00 AM
Abstract :
We present detailed numerical analysis on the temperature rise due to self-heating for a small mesa in interlayer tunneling spectroscopy based on the thermal diffusion equation using temperature dependent specific heat and thermal conductivity data. In the analysis, a BSCCO square mesa typically 10 mum wide and 15 nm thick with the -axis resistivity of 10 Omegacm is in close contact with the 350 nm Au electrode layer on the top. It is found that when a quasiparticle current of 20 mA is injected, which is a typical value at the superconducting gap voltage, the temperature rise due to self-heating is 3.8 K at 60 ns from the pulse rise and 4.6 K at 500 ns when the base temperature is 10 K. When the current is 50 mA, the temperature rise is 18 K at 60 ns and 22 K at 500 ns, indicating a significant heating near the edge of the voltage range, where the pseudogap is observed in short-pulse tunneling experiments.
Keywords :
Josephson effect; bismuth compounds; calcium compounds; high-temperature superconductors; strontium compounds; thermal conductivity; thermal diffusion; Au electrode layer; BSCCO; high-temperature superconductors; interlayer tunneling spectroscopy; intrinsic Josephson junctions; mesa structures; quasiparticle current; self-heating; thermal conductivity; thermal diffusion equation; Bismuth compounds; Equations; Josephson junctions; Numerical analysis; Spectroscopy; Temperature dependence; Temperature distribution; Thermal conductivity; Tunneling; Voltage; Bi-Sr-Ca-Cu-O; high-temperature superconductors; intrinsic Josephson junctions; mesa structure; quasiparticle current; self-heating;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2007.898706
