7,528 research outputs found
Cosmological production of H_2 before the formation of the first galaxies
Previous calculations of the pregalactic chemistry have found that a small
amount of H_2, x[H_2]=n[H_2]/n[H] = 2.6e-6, is produced catalytically through
the H^-, H_2^+, and HeH^+ mechanisms. We revisit this standard calculation
taking into account the effects of the nonthermal radiation background produced
by cosmic hydrogen recombination, which is particularly effective at destroying
H^- via photodetachment. We also take into consideration the non-equilibrium
level populations of H_2^+, which occur since transitions among the
rotational-vibrational levels are slow compared to photodissociation. The new
calculation predicts a final H_2 abundance of x[H_2] = 6e-7 for the standard
cosmology. This production is due almost entirely to the H^- mechanism, with ~1
per cent coming from HeH^+ and ~0.004 per cent from H_2^+. We evaluate the
heating of the diffuse pregalactic gas from the chemical reactions that produce
H_2 and from rotational transitions in H_2, and find them to be negligible.Comment: 13 pages, 5 figures, MNRAS submitte
A basic lock-in amplifier experiment for the undergraduate laboratory
We describe a basic experiment for the undergraduate laboratory that demonstrates aspects of both, the science and the art of precision electronic measurements. The essence of the experiment is to measure the resistance of a small length of brass-wire to high accuracy using a simple voltage divider and a lock-in amplifier. By performing the measurement at different frequencies and different drive currents, one observes various random noise sources and systematic measurement effects
Detection of large scale intrinsic ellipticity-density correlation from the Sloan Digital Sky Survey and implications for weak lensing surveys
The power spectrum of weak lensing shear caused by large-scale structure is
an emerging tool for precision cosmology, in particular for measuring the
effects of dark energy on the growth of structure at low redshift. One
potential source of systematic error is intrinsic alignments of ellipticities
of neighbouring galaxies (II correlation) that could mimic the correlations due
to lensing. A related possibility pointed out by Hirata and Seljak (2004) is
correlation between the intrinsic ellipticities of galaxies and the density
field responsible for gravitational lensing shear (GI correlation). We present
constraints on both the II and GI correlations using 265 908 spectroscopic
galaxies from the SDSS, and using galaxies as tracers of the mass in the case
of the GI analysis. The availability of redshifts in the SDSS allows us to
select galaxies at small radial separations, which both reduces noise in the
intrinsic alignment measurement and suppresses galaxy- galaxy lensing (which
otherwise swamps the GI correlation). While we find no detection of the II
correlation, our results are nonetheless statistically consistent with recent
detections found using the SuperCOSMOS survey. In contrast, we have a clear
detection of GI correlation in galaxies brighter than L* that persists to the
largest scales probed (60 Mpc/h) and with a sign predicted by theoretical
models. This correlation could cause the existing lensing surveys at z~1 to
underestimate the linear amplitude of fluctuations by as much as 20% depending
on the source sample used, while for surveys at z~0.5 the underestimation may
reach 30%. (Abridged.)Comment: 16 pages, matches version published in MNRAS (only minor changes in
presentation from original version
Wouthuysen-Field coupling strength and application to high-redshift 21 cm radiation
The first UV sources in the universe are expected to have coupled the HI spin
temperature to the gas kinetic temperature via scattering in the Lyman-alpha
resonance [the Wouthuysen-Field (WF) effect]. By establishing an HI spin
temperature different from the temperature of the CMB, the WF effect should
allow observations of HI during the reionization epoch in the redshifted 21 cm
line. This paper investigates four mechanisms that can affect the strength of
the WF effect that were not previously considered: (1) Photons redshifting into
the HI Lyman resonances may excite an H atom and result in a radiative cascade
terminating in two-photon 2s->1s emission, rather than always degrading to
Lyman-alpha as usually assumed. (2) The fine structure of the Lyman-alpha
resonance alters the photon frequency distribution and leads to a suppression
of the scattering rate. (3) The spin-flip scatterings change the frequency of
the photon and cause the photon spectrum to relax not to the kinetic
temperature of the gas but to a temperature between the kinetic and spin
temperatures, effectively reducing the strength of the Wouthuysen-Field
coupling. (4) Near line centre, a photon can change its frequency by several
times the line width in a single scattering event, thus potentially
invalidating the usual calculation of the Lyman-alpha spectral distortion based
on the diffusion approximation. It is shown that (1) suppresses the WF coupling
strength by a factor of up to ~2, while (2) and (3) are important only at low
kinetic temperatures. Effect (4) has a <=3% effect for kinetic temperatures
T_k>=2K. If the pre-reionization IGM was efficiently heated by X-rays, only
effect (1) is important. Fitting formulae are provided for the range of T_k>=2K
and Gunn-Peterson optical depth 10^5--10^7. [ABRIDGED]Comment: 17 pages, 7 figures, MNRAS accepted versio
Electron Correlations in the Quasi-Two-Dimensional Organic Conductor -(BEDT-TTF)I investigated by C NMR
We report a C-NMR study on the ambient-pressure metallic phase of the
layered organic conductor -(BEDT-TTF)I [BEDT-TTF:
bisethylenedithio-tetrathiafulvalene], which is expected to connect the physics
of correlated electrons and Dirac electrons under pressure. The orientation
dependence of the NMR spectra shows that all BEDT-TTF molecules in the unit
cell are to be seen equivalent from a microscopic point of view. This feature
is consistent with the orthorhombic symmetry of the BEDT-TTF sublattice and
also indicates that the monoclinic sublattice, which should make three
molecules in the unit cell nonequivalent, is not practically influential on the
electronic state in the conducting BEDT-TTF layers at ambient pressure. There
is no signature of charge disproportionation in opposition to most of the
-type BEDT-TTF salts.
The analyses of NMR Knight shift, , and the nuclear spin-lattice
relaxation rate, , revealed that the degree of electron correlation,
evaluated by the Korringa ratio [)], is in an
intermediate regime. However, NMR relaxation rate is enhanced above
200K, which possibly indicates that the system enters into a quantum
critical regime of charge-order fluctuations as suggested theoretically.Comment: 19pages, 6figure
Phenomenological local potentials for \pi^- + ^{12}C scattering from 120 to 766 MeV
Pion-nucleus scattering cross sections are calculated by solving a
Schr\"{o}dinger equation reduced from the Klein-Gordon equation. Local
potentials are assumed, and phenomenological potential parameters are searched
energy-dependently for C system so as to reproduce not only
elastic differential cross sections but also total elastic, reaction and total
cross sections at 13 pion incident energies from 120 to 766 MeV. The real and
imaginary parts of the local potentials thus obtained are shown to satisfy the
dispersion relation. The imaginary part of the potentials as a function of the
pion energy is found to peak near the (1232)-resonance energy. The
strong absorption radius of the pion projectile with incident energies near the
-resonance region is found to be about fm, which is
consistent with previous studies of the region where the decay of the
's takes place in nuclei. The phenomenological local potentials are
then compared with the local potentials exactly phase-shift equivalent to
Kisslinger potentials for pion energies near the -resonance
LISA Galactic Binaries in the Roman Galactic Bulge Time-Domain Survey
Short-period Galactic white dwarf binaries detectable by LISA are the only
guaranteed persistent sources for multi-messenger gravitational-wave astronomy.
Large-scale surveys in the 2020s present an opportunity to conduct preparatory
science campaigns to maximize the science yield from future multi-messenger
targets. The Nancy Grace Roman Space Telescope Galactic Bulge Time Domain
Survey will (in its Reference Survey design) image seven fields in the Galactic
Bulge approximately 40,000 times each. Although the Reference Survey cadence is
optimized for detecting exoplanets via microlensing, it is also capable of
detecting short-period white dwarf binaries. In this paper, we present
forecasts for the number of detached short-period binaries the Roman Galactic
Bulge Time Domain Survey will discover and the implications for the design of
electromagnetic surveys. Although population models are highly uncertain, we
find a high probability that the baseline survey will detect of order ~5
detached white dwarf binaries. The Reference Survey would also have a
chance of detecting several known benchmark white dwarf binaries
at the distance of the Galactic Bulge.Comment: 9 pages, 4 figure, 1 tabl
Approximate Treatment of Lepton Distortion in Charged-Current Neutrino Scattering from Nuclei
The partial-wave expansion used to treat the distortion of scattered
electrons by the nuclear Coulomb field is simpler and considerably less
time-consuming when applied to the production of muons and electrons by low and
intermediate-energy neutrinos. For angle-integrated cross sections, however, a
modification of the "effective-momentum-transfer" approximation seems to work
so well that for muons the full distorted-wave treatment is usually
unnecessary, even at kinetic energies as low as an MeV and in nuclei as heavy
as lead. The method does not work as well for electron production at low
energies, but there a Fermi function usually proves adequate. Scattering of
electron-neutrinos from muon decay on iodine and of atmospheric neutrinos on
iron are discussed in light of these results.Comment: 11 pages, LaTeX, submitted to Phys. Rev.
A Classical Bound on Quantum Entropy
A classical upper bound for quantum entropy is identified and illustrated,
, involving the variance
in phase space of the classical limit distribution of a given system. A
fortiori, this further bounds the corresponding information-theoretical
generalizations of the quantum entropy proposed by Renyi.Comment: Latex2e, 7 pages, publication versio
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