Title :
Flux Pinning Centers in MgB2 Thin Films Prepared by an Electron Beam Evaporation Technique
Author :
Doi, Toshiya ; Masuda, Kazuyuki ; Fukuyama, Kandai ; Hamada, Shuzo ; Kobayashi, Yuki ; Hakuraku, Yoshinori ; Kitaguchi, Hitoshi
Author_Institution :
Kagoshima Univ., Kagoshima
fDate :
6/1/2007 12:00:00 AM
Abstract :
We prepared MgB2 thin films by an electron beam evaporation technique and found that either vacancies and/or B substitutions on Mg sites worked as effective pinning centers in MgB2. We also found that the grain boundaries formed by the columnar grains work as effective pinning centers, by measuring transport J c´s by changing the relative angle between grain boundaries and the applied magnetic field. We also found that introduced MgO nano-particles in MgB2 work as effective pinning centers.
Keywords :
critical current density (superconductivity); electron beam deposition; flux pinning; grain boundaries; magnesium compounds; magnetic hysteresis; nanoparticles; superconducting thin films; vacancies (crystal); vacuum deposition; Al2O3 - Surface; MgB2 - Binary; columnar grains; critical current density; electron beam evaporation technique; flux pinning centers; grain boundaries; magnetization hysteresis loops; nanoparticles; sapphire single crystal substrates; superconducting thin films; vacancies; Atomic layer deposition; Atomic measurements; Chemicals; Electron beams; Flux pinning; Grain boundaries; Magnetic field measurement; Substrates; Superconducting films; Transistors; $J_{rm c}$; ${rm MgB}_{2}$; Electron beam evaporation; pinning centers; superconducting film;
Journal_Title :
Applied Superconductivity, IEEE Transactions on
DOI :
10.1109/TASC.2007.898187
