Variation of the density of states in amorphous GdSi at the metal-insulator transition Academic Article

abstract

• We have performed detailed conductivity and tunneling measurements on the amorphous, magnetically doped material -GdxSi1-x, which can be driven through the metal-insulator transition by the application of an external magnetic field. Low temperature conductivity increases linearly with field near the transition and slightly slower on the metallic side. The tunneling conductance, proportional to the density of states N(E), undergoes a gradual change with increasing field, from insulating, showing a soft gap at low bias, with a slightly slower than parabolic energy dependence, i.e., N(E) Ec, c 2, 2, towards metallic behavior, with Ed, 0.5 < d < 1 energy dependence. The density of states at the Fermi level in a sample, which shows already a small, but metal-like conductivity, appears to be zero at low fields, as in an insulator. We speculate that this behavior is due to the microscopic percolation nature of transport near the transition.

authors

• Teizer, Winfried

published proceedings

• PHYSICAL REVIEW B

author list (cited authors)

• Bokacheva, L., Teizer, W., Hellman, F., & Dynes, R. C.

citation count

• 14

complete list of authors

• Bokacheva, L||Teizer, W||Hellman, F||Dynes, RC

publication date

• June 2004

publisher

• American Physical Society (APS)  Publisher

published in

• Physical review B (PRB)  Journal

keywords

• 51 Physical Sciences
• 5104 Condensed Matter Physics

Digital Object Identifier (DOI)

• 10.1103/PhysRevB.69.235111

URI

• http://dx.doi.org/10.1103/PhysRevB.69.235111

start page

• 235111

volume

• 69

issue

• 23

URL

• http%3A%2F%2Fdx.doi.org%2F10.1103%2Fphysrevb.69.235111