Dc track edge interactions Indeck, Ronald Scott ; Reising, Steven C. ; Hoinville, J. R. ; Muller, M. W. "This work was supported in part by NSF Grant No. ECS-880470 and NSF Presidential Young Investigator Award (Indeck) ECS-89-5714." We have developed an experimental method for investigating the interaction between two dc track edges by studying the track edge noise. We conclude that two edges do not interact when they are several micrometers apart, but the noise reduces nearly to zero when their separation is less than about half a micrometer. There is a transition region that exists between these two limits. The net track edge noise power from two dc edges is quantized, implying that in our experiment track edges interact around the complete revolution of the disk or not at all. Colorado State University. Libraries 1991 text ; image application/pdf ECEscr00018.pdf FACFECEN100580ARTI eng c1991 American Institute of Physics
Dc track edge interactions
Indeck, Ronald Scott ; Reising, Steven C. ; Hoinville, J. R. ; Muller, M. W.
"This work was supported in part by NSF Grant No. ECS-880470 and NSF Presidential Young Investigator Award (Indeck) ECS-89-5714."
We have developed an experimental method for investigating the interaction between two dc track edges by studying the track edge noise. We conclude that two edges do not interact when they are several micrometers apart, but the noise reduces nearly to zero when their separation is less than about half a micrometer. There is a transition region that exists between these two limits. The net track edge noise power from two dc edges is quantized, implying that in our experiment track edges interact around the complete revolution of the disk or not at all.
Colorado State University. Libraries
1991
text ; image
application/pdf
ECEscr00018.pdf
FACFECEN100580ARTI
eng
c1991 American Institute of Physics