1,579 research outputs found
Effect of Al mole fraction on carrier diffusion lengths and lifetimes in AlxGa1âxAs
The ambipolar diffusion length and carrier lifetime are measured in AlxGa1âxAs for several mole fractions in the interval 0<x<0.38. These parameters are found to have significantly higher values in the higher mole fraction samples. These increases are attributed to occupation of states in the indirect valleys, and supporting calculations are presented
Magnetic Order Beyond RKKY in the Classical Kondo Lattice
We study the Kondo lattice model of band electrons coupled to classical
spins, in three dimensions, using a combination of variational calculation and
Monte Carlo. We use the weak coupling `RKKY' window and the strong coupling
regime as benchmarks, but focus on the physically relevant intermediate
coupling regime. Even for modest electron-spin coupling the phase boundaries
move away from the RKKY results, the non interacting Fermi surface no longer
dictates magnetic order, and weak coupling `spiral' phases give way to
collinear order. We use these results to revisit the classic problem of 4f
magnetism and demonstrate how both electronic structure and coupling effects
beyond RKKY control the magnetism in these materials.Comment: 6 pages, 4 figs. Improved figures, expanded captions. To appear in
Europhys. Let
Spin-dynamic field coupling in strongly THz driven semiconductors : local inversion symmetry breaking
We study theoretically the optics in undoped direct gap semiconductors which
are strongly driven in the THz regime. We calculate the optical sideband
generation due to nonlinear mixing of the THz field and the near infrared
probe. Starting with an inversion symmetric microscopic Hamiltonian we include
the THz field nonperturbatively using non-equilibrium Green function
techniques. We find that a self induced relativistic spin-THz field coupling
locally breaks the inversion symmetry, resulting in the formation of odd
sidebands which otherwise are absent.Comment: 8 pages, 6 figure
Stiff Stability of the Hydrogen atom in dissipative Fokker electrodynamics
We introduce an ad-hoc electrodynamics with advanced and retarded
Lienard-Wiechert interactions plus the dissipative Lorentz-Dirac
self-interaction force. We study the covariant dynamical system of the
electromagnetic two-body problem, i.e., the hydrogen atom. We perform the
linear stability analysis of circular orbits for oscillations perpendicular to
the orbital plane. In particular we study the normal modes of the linearized
dynamics that have an arbitrarily large imaginary eigenvalue. These large
eigenvalues are fast frequencies that introduce a fast (stiff) timescale into
the dynamics. As an application, we study the phenomenon of resonant
dissipation, i.e., a motion where both particles recoil together in a drifting
circular orbit (a bound state), while the atom dissipates center-of-mass energy
only. This balancing of the stiff dynamics is established by the existence of a
quartic resonant constant that locks the dynamics to the neighborhood of the
recoiling circular orbit. The resonance condition quantizes the angular momenta
in reasonable agreement with the Bohr atom. The principal result is that the
emission lines of quantum electrodynamics (QED) agree with the prediction of
our resonance condition within one percent average deviation.Comment: 1 figure, Notice that Eq. (34) of the Phys. Rev. E paper has a typo;
it is missing the square Brackets of eq. (33), find here the correct e
998-61 Population Prevalence of Wolff-Parkinson-White Syndrome
Little is known about the epidemiology of Wolff-Parkinson-White (WPW) syndrome in the general population. Virtually all previous studies have been either case series from tertiary care centers or limited to young adult males screened for military training. To date, there are no detailed studies of the prevalence of WPW in the general population. To determine the prevalence of WPW in the general population, we used the Marshfield Epidemiologic Study Area (MESA), a population laboratory of 50,000 people residing in 12 contiguous zip codes in central Wisconsin. Prevalence was determined as of 7/1/91 among MESA residents who had a diagnosis of WPW between 1/1/79 and 6/30/91. Cases were identified by reviewing the medical records and electrocardiograms of: a) all 32 MESA residents with the WPW diagnosis identified by International Classification of Diseases, 9th Revision (ICD-9) Code 426.7 as a hospital discharge or outpatient clinic diagnosis, b) 600 patients with suspected supraventricular arrhythmias identified by three ICD 9 codes, and c) all patients who had an invasive electrophysiology study for overt WPW syndrome in our institution over the last 10 years.ResultsWe identified 25 prevalent cases of WPW resulting in an overall population prevalence of 5.1/10,000 (95% C.I., 3.1â7.1).Age specific-prevalence rates per 10,000 were: 0â19 years â2.0; 20â39 years â5.5; 40â59 years â9.6; > 60 years â4.8. There was no significant difference in males versus females. Al1 25 verified cases were identified from the 32 potential cases with ICD-9 Code 426.7, indicating that this code is 100% sensitive and has a 78% positive predictive value for WPW syndrome.Conclusions1) The prevalence of WPW in the general population is lower than that reported in selected populations and appears to be highest in those of late middle-age. 2) Based on the findings of our study, we estimate that there are approximately 130,000 individuals in the United States with electrocardiographic documentation of WPW
A double-lined spectroscopic orbit for the young star HD 34700
We report high-resolution spectroscopic observations of the young star HD
34700, which confirm it to be a double-lined spectroscopic binary. We derive an
accurate orbital solution with a period of 23.4877 +/- 0.0013 days and an
eccentricity of e = 0.2501 +/- 0.0068. The stars are found to be of similar
mass (M2/M1 = 0.987 +/- 0.014) and luminosity. We derive also the effective
temperatures (5900 K and 5800 K) and projected rotational velocities (28 km/s
and 22 km/s) of the components. These values of v sin i are much higher than
expected for main-sequence stars of similar spectral type (G0), and are not due
to tidal synchronization. We discuss also the indicators of youth available for
the object. Although there is considerable evidence that the system is young
--strong infrared excess, X-ray emission, Li I 6708 absorption (0.17 Angstroms
equivalent width), H alpha emission (0.6 Angstroms), rapid rotation-- the
precise age cannot yet be established because the distance is unknown.Comment: 17 pages, including 2 figures and 2 tables. Accepted for publication
in AJ, to appear in February 200
Main Sequence Masses and Radii from Gravitational Redshifts
Modern instrumentation makes it possible to measure the mass to radius ratio
for main sequence stars in open clusters from gravitational redshifts. For
stars where independent information is available for either the mass or the
radius, this application of general relativity directly determines the other
quantity. Applicable examples are: 1) measuring the radii of solar metallicity
main sequence stars for which the mass - luminosity relation is well known, 2)
measuring the radii for stars where model atmospheres can be used to determine
the surface gravity (the mass to radius squared ratio), 3) refining the mass -
radius relation for main sequence stars, and 4) measuring the change in radius
as stars evolve off the main sequence and up the giant branch.Comment: 7 pages, latex, no figures, to be published in ApJ Letter
Quasienergy Spectroscopy of Excitons
We theoretically study nonlinear optics of excitons under intense THz
irradiation. In particular, the linear near infrared absorption and resonantly
enhanced nonlinear sideband generation are described. We predict a rich
structure in the spectra which can be interpreted in terms of the quasienergy
spectrum of the exciton, via a remarkably transparent expression for the
susceptibility, and show that the effects of strongly avoided quasienergy
crossings manifest themselves directly, both in the absorption and transmitted
sidebands.Comment: 4 pages RevTex, 3 eps figs included, as publishe
First Principles Study of Zn-Sb Thermoelectrics
We report first principles LDA calculations of the electronic structure and
thermoelectric properties of -ZnSb. The material is found
to be a low carrier density metal with a complex Fermi surface topology and
non-trivial dependence of Hall concentration on band filling. The band
structure is rather covalent, consistent with experimental observations of good
carrier mobility. Calculations of the variation with band filling are used to
extract the doping level (band filling) from the experimental Hall number. At
this band filling, which actually corresponds to 0.1 electrons per 22 atom unit
cell, the calculated thermopower and its temperature dependence are in good
agreement with experiment. The high Seebeck coefficient in a metallic material
is remarkable, and arises in part from the strong energy dependence of the
Fermiology near the experimental band filling. Improved thermoelectric
performance is predicted for lower doping levels which corresponds to higher Zn
concentrations.Comment: 5 pages, 6 figure
The Machine Learning Landscape of Top Taggers
Based on the established task of identifying boosted, hadronically decaying
top quarks, we compare a wide range of modern machine learning approaches.
Unlike most established methods they rely on low-level input, for instance
calorimeter output. While their network architectures are vastly different,
their performance is comparatively similar. In general, we find that these new
approaches are extremely powerful and great fun.Comment: Yet another tagger included
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