Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift

Xing, X. ; Bertram, H. N.

[S.l.] : American Institute of Physics (AIP)
Published 1999
ISSN:
1089-7550
Source:
AIP Digital Archive
Topics:
Physics
Notes:
The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1063/1.369941
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autor Xing, X.
Bertram, H. N.
autorsonst Xing, X.
Bertram, H. N.
book_url http://dx.doi.org/10.1063/1.369941
datenlieferant nat_lic_papers
hauptsatz hsatz_simple
identnr NLZ218430868
iqvoc_descriptor_title iqvoc_00000708:Analysis
issn 1089-7550
journal_name Journal of Applied Physics
materialart 1
notes The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
package_name American Institute of Physics (AIP)
publikationsjahr_anzeige 1999
publikationsjahr_facette 1999
publikationsjahr_intervall 8004:1995-1999
publikationsjahr_sort 1999
publikationsort [S.l.]
publisher American Institute of Physics (AIP)
reference 85 (1999), S. 5861-5863
search_space articles
shingle_author_1 Xing, X.
Bertram, H. N.
shingle_author_2 Xing, X.
Bertram, H. N.
shingle_author_3 Xing, X.
Bertram, H. N.
shingle_author_4 Xing, X.
Bertram, H. N.
shingle_catch_all_1 Xing, X.
Bertram, H. N.
Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
1089-7550
10897550
American Institute of Physics (AIP)
shingle_catch_all_2 Xing, X.
Bertram, H. N.
Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
1089-7550
10897550
American Institute of Physics (AIP)
shingle_catch_all_3 Xing, X.
Bertram, H. N.
Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
1089-7550
10897550
American Institute of Physics (AIP)
shingle_catch_all_4 Xing, X.
Bertram, H. N.
Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
The effect of finite flux rise time on the recording process has been examined by a comparison of theoretical analysis and experimental measurement. It was shown that a finite flux rise time increases the transition width, transition noise, and nonlinear transition shift. The effect of rise time on these recording phenomena was shown to scale with the product of disk velocity and rise time divided by the total magnetic spacing (ντ/y). Comparison of the experiment and theory yields reasonable flux rise time. © 1999 American Institute of Physics.
1089-7550
10897550
American Institute of Physics (AIP)
shingle_title_1 Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
shingle_title_2 Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
shingle_title_3 Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
shingle_title_4 Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
sigel_instance_filter dkfz
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source_archive AIP Digital Archive
timestamp 2024-05-06T08:04:52.011Z
titel Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
titel_suche Analysis of the effect of write head field rise time on signal, noise, and nonlinear transition shift
topic U
uid nat_lic_papers_NLZ218430868