4,260 research outputs found
Scintillation detector for carbon-14
Detector consists of plastic, cylindrical double-wall scintillation cell, which is filled with gas to be analyzed. Thin, inner cell wall is isolated optically from outer (guard) scintillator wall by evaporated-aluminum coating. Bonding technique provides mechanical support to cell wall when device is exposed to high temperatures
Quantum state engineering using conditional measurement on a beam splitter
State preparation via conditional output measurement on a beam splitter is
studied, assuming the signal mode is mixed with a mode prepared in a Fock state
and photon numbers are measured in one of the output channels. It is shown that
the mode in the other output channel is prepared in either a photon-subtracted
or a photon-added Jacobi polynomial state, depending upon the difference
between the number of photons in the input Fock state and the number of photons
in the output Fock state onto which it is projected. The properties of the
conditional output states are studied for coherent and squeezed input states,
and the probabilities of generating the states are calculated. Relations to
other states, such as near-photon-number states and squeezed-state-excitations,
are given and proposals are made for generating them by combining the scheme
with others. Finally, effects of realistic photocounting and Fock-state
preparation are discussed.Comment: 8 figures using a4.st
Quantum local-field corrections and spontaneous decay
A recently developed scheme [S. Scheel, L. Knoll, and D.-G. Welsch, Phys.
Rev. A 58, 700 (1998)] for quantizing the macroscopic electromagnetic field in
linear dispersive and absorbing dielectrics satisfying the Kramers-Kronig
relations is used to derive the quantum local-field correction for the standard
virtual-sphere-cavity model. The electric and magnetic local-field operators
are shown to be consistent with QED only if the polarization noise is fully
taken into account. It is shown that the polarization fluctuations in the local
field can dramatically change the spontaneous decay rate, compared with the
familiar result obtained from the classical local-field correction. In
particular, the spontaneous emission rate strongly depends on the radius of the
local-field virtual cavity.Comment: 7 pages, using RevTeX, 4 figure
Conditional quantum state engineering in repeated 2-photon down conversion
The U(1,1) and U(2) transformations realized by three-mode interaction in the
respective parametric approximations are studied in conditional measurement,
and the corresponding non-unitary transformation operators are derived. As an
application, the preparation of single-mode quantum states using an optical
feedback loop is discussed, with special emphasis of Fock state preparation.
For that example, the influence of non-perfect detection and feedback is also
considered.Comment: 17 pages, 4 figures, using a4.st
Optimal operating conditions and characteristics of acetone/CaF_2 detector for inverse photoemission spectroscopy
Performance and characteristics of a band-pass photon detector using acetone
gas and CaF_2 window (acetone/CaF_2) have been studied and compared with an
ethanol/MgF_2 detector. The optimal operating conditions are found to be 4 mbar
acetone pressure and 745+/-20 V anode voltage. The count rate obtained by us is
about a factor of 3 higher than what has been reported earlier for the acetone
detector. Unlike other gas filled detectors, this detector works in the
proportional region with very small dead time (4 micro sec). A detector
band-pass of 0.48+/-0.01 eV FWHM is obtained.Comment: Review of Scientific Instruments 76, 066102 (2005
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