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VERSION:2.0
CALSCALE:GREGORIAN
PRODID:UW-Madison-Physics-Events
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SEQUENCE:0
UID:UW-Physics-Event-2588
DTSTART:20121207T213000Z
DURATION:PT1H0M0S
DTSTAMP:20240328T103900Z
LAST-MODIFIED:20121203T161401Z
LOCATION:2241 Chamberlin Hall (coffee at 4:30 pm)
SUMMARY:Testing Landauer’s Principle in a feedback trap\, Physics De
partment Colloquium\, John Bechhoefer\, Simon Fraser University
DESCRIPTION:Landauer's principle\, formulated in 1961\, postulates tha
t irreversible logical or computational operations such as memory eras
ure require work\, no matter how slowly they are performed. For examp
le\, to "reset to one" a one-bit memory requires a work of at least k
T ln2\, which is dissipated as heat. In 1982\, Bennett pointed out a
link to Maxwell's Demon: Were Landauer's principle to fail\, it would
be possible to repeatedly extract work from a heat bath.
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nWe report tests of Landauer's principle in an experimental system\, w
here a "virtual" double-well potential is created via a feedback loop
. We observe the position of a charged\, fluorescent\, colloidal part
icle in water and calculate and then apply the appropriate force using
an electric field. In a first experiment\, the probability of "erasu
re" (resetting to one) is unity\, and at long cycle times\, we observe
that the work is compatible with kT ln2. In a second\, the probabili
ty of erasure is zero\; the system may end up in two states\; and\, at
long cycle times\, the measured work tends to zero.
\n
URL:https://www.physics.wisc.edu/events/?id=2588
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