Home
For authors
Submission status

Archive
Archive (English)
Current
   Volumes 113-119
   Volumes 93-112
      Volume 112
      Volume 111
      Volume 110
      Volume 109
      Volume 108
      Volume 107
      Volume 106
      Volume 105
      Volume 104
      Volume 103
      Volume 102
      Volume 101
      Volume 100
      Volume 99
      Volume 98
      Volume 97
      Volume 96
      Volume 95
      Volume 94
      Volume 93
Search
VOLUME 94 (2011) | ISSUE 5 | PAGE 371
On the corrections to the Casimir effect depending on the resolution of measurement
Abstract
The Casimir force {\mathcal{F}} = -\dfrac{\pi^2\hbar c}{240a^4}, which attracts to each other two perfectly conducting parallel plates separated by the distance a in vacuum, is one of the blueprints of the reality of vacuum fluctuations. Following the recent conjecture, that quantum fields should be described in terms of the fields depending on the resolution of measurement, rather than the position alone [1], we derive the correction to the Casimir energy depending on the ratio of the plate displacement amplitude to the distance between plates.