3,685 research outputs found
Gluon Field Strength Correlation Functions within a Constrained Instanton Model
We suggest a constrained instanton (CI) solution in the physical QCD vacuum
which is described by large-scale vacuum field fluctuations. This solution
decays exponentially at large distances. It is stable only if the interaction
of the instanton with the background vacuum field is small and additional
constraints are introduced. The CI solution is explicitly constructed in the
ansatz form, and the two-point vacuum correlator of gluon field strengths is
calculated in the framework of the effective instanton vacuum model. At small
distances the results are qualitatively similar to the single instanton (SI)
case, in particular, the form factor is small, which is in agreement
with the lattice calculations.Comment: 25 pages (RevTex), 7 ps figures; some references added, one figure
replace
MILITARY PROGRESS IN A GLOBAL WORLD: THE NEED FOR A PROFESSIONAL APPROACH TO THE ETERNAL PROBLEMS
The author stresses that military progress is a part of the social progress, therefore its analysis involves the understanding of common problems and criteria of the development of mankind at this or that stage of history. The article covers new trends characterizing the military progress of the modern world. In particular, peculiarities of military progress after the «cold war», after the abolition of bipolar world system are analyzed. However, the real aims are the same, although they assume more rational nuance.Автор подчеркивает, что военный прогресс представляет собой часть общественного прогресса, поэтому его анализ предполагает понимание общих проблем и критериев развития человечества на том или ином историческом этапе. В статье освещаются новые тенденции, характеризующие военный прогресс современности. В частности, анализируются особенности военного прогресса после «холодной войны», после упразднения мировой биполярной системы. Тем не менее, реальные цели при этом остаются прежними, хотя и приобрели более рациональную окраску
How much laser power can propagate through fusion plasma?
Propagation of intense laser beams is crucial for inertial confinement
fusion, which requires precise beam control to achieve the compression and
heating necessary to ignite the fusion reaction. The National Ignition Facility
(NIF), where fusion will be attempted, is now under construction. Control of
intense beam propagation may be ruined by laser beam self-focusing. We have
identified the maximum laser beam power that can propagate through fusion
plasma without significant self-focusing and have found excellent agreement
with recent experimental data, and suggest a way to increase that maximum by
appropriate choice of plasma composition with implication for NIF designs. Our
theory also leads to the prediction of anti-correlation between beam spray and
backscatter and suggests the indirect control of backscatter through
manipulation of plasma ionization state or acoustic damping.Comment: 15 pages, 4 figures, submitted to Plasma Physics and Controlled
Fusio
Multilevel Analysis of Oscillation Motions in Active Regions of the Sun
We present a new method that combines the results of an oscillation study
made in optical and radio observations. The optical spectral measurements in
photospheric and chromospheric lines of the line-of-sight velocity were carried
out at the Sayan Solar Observatory. The radio maps of the Sun were obtained
with the Nobeyama Radioheliograph at 1.76 cm. Radio sources associated with the
sunspots were analyzed to study the oscillation processes in the
chromosphere-corona transition region in the layer with magnetic field B=2000
G. A high level of instability of the oscillations in the optical and radio
data was found. We used a wavelet analysis for the spectra. The best
similarities of the spectra of oscillations obtained by the two methods were
detected in the three-minute oscillations inside the sunspot umbra for the
dates when the active regions were situated near the center of the solar disk.
A comparison of the wavelet spectra for optical and radio observations showed a
time delay of about 50 seconds of the radio results with respect to optical
ones. This implies a MHD wave traveling upward inside the umbral magnetic tube
of the sunspot. Besides three-minute and five-minute ones, oscillations with
longer periods (8 and 15 minutes) were detected in optical and radio records.Comment: 17 pages, 9 figures, accepted to Solar Physics (18 Jan 2011). The
final publication is available at http://www.springerlink.co
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