59,191 research outputs found
Deep neutral hydrogen observations of Leo T with the Westerbork Synthesis Radio Telescope
Leo T is the lowest mass gas-rich galaxy currently known and studies of its
gas content help us understand how such marginal galaxies survive and form
stars. We present deep neutral hydrogen (HI) observations from the Westerbork
Synthesis Radio Telescope in order to understand its HI distribution and
potential for star formation. We find a larger HI line flux than the previously
accepted value, resulting in a 50% larger HI mass of 4.1 x 10^5 Msun. The
additional HI flux is from low surface brightness emission that was previously
missed; with careful masking this emission can be recovered even in shallower
data. We perform a Gaussian spectral decomposition to find a cool neutral
medium component (CNM) with a mass of 3.7 x 10^4 Msun, or almost 10% of the
total HI mass. Leo T has no HI emission extending from the main HI body, but
there is evidence of interaction with the Milky Way circumgalactic medium in
both a potential truncation of the HI body and the offset of the peak HI
distribution from the optical center. The CNM component of Leo T is large when
compared to other dwarf galaxies, even though Leo T is not currently forming
stars and has a lower star formation efficiency than other gas-rich dwarf
galaxies. However, the HI column density associated with the CNM component in
Leo T is low. One possible explanation is the large CNM component is not
related to star formation potential but rather a recent, transient phenomenon
related to the interaction of Leo T with the Milky Way circumgalactic medium.Comment: accepted for publication in A&A; 12 pages, 13 figure
Experimental demonstration of stimulated polarization wave in a chain of nuclear spins
A stimulated wave of polarization, which implements a simple mechanism of
quantum amplification, is experimentally demonstrated in a chain of four
J-coupled nuclear spins, irradiated by a weak radio-frequency transverse field.
The "quantum domino" dynamics, a wave of flipped spins triggered by a flip of
the first spin, has been observed in fully C-labeled sodium butyrate.Comment: 8 pages including 3 figure
Boundary Terms and Junction Conditions for the DGP Pi-Lagrangian and Galileon
In the decoupling limit of DGP, Pi describes the brane-bending degree of
freedom. It obeys second order equations of motion, yet it is governed by a
higher derivative Lagrangian. We show that, analogously to the Einstein-Hilbert
action for GR, the Pi-Lagrangian requires Gibbons-Hawking-York type boundary
terms to render the variational principle well-posed. These terms are important
if there are other boundaries present besides the DGP brane, such as in higher
dimensional cascading DGP models. We derive the necessary boundary terms in two
ways. First, we derive them directly from the brane-localized Pi-Lagrangian by
demanding well-posedness of the action. Second, we calculate them directly from
the bulk, taking into account the Gibbons-Hawking-York terms in the bulk
Einstein-Hilbert action. As an application, we use the new boundary terms to
derive Israel junction conditions for Pi across a sheet-like source. In
addition, we calculate boundary terms and junction conditions for the galileons
which generalize the DGP Pi-lagrangian, showing that the boundary term for the
n-th order galileon is the (n-1)-th order galileon.Comment: 23 pages, 1 figure. Extended the analysis to the general galileon
field. Version to appear in JHE
The memory space: Exploring future uses of Web 2.0 and mobile internet through design interventions.
The QuVis Quantum Mechanics Visualization project aims to address challenges
of quantum mechanics instruction through the development of interactive
simulations for the learning and teaching of quantum mechanics. In this
article, we describe evaluation of simulations focusing on two-level systems
developed as part of the Institute of Physics Quantum Physics resources.
Simulations are research-based and have been iteratively refined using student
feedback in individual observation sessions and in-class trials. We give
evidence that these simulations are helping students learn quantum mechanics
concepts at both the introductory and advanced undergraduate level, and that
students perceive simulations to be beneficial to their learning.Comment: 15 pages, 5 figures, 1 table; accepted for publication in the
American Journal of Physic
Half-Twisted Correlators from the Coulomb Branch
We compute correlators of chiral operators in half-twisted (0,2)
supersymmetric gauged linear sigma models. Our results give simple algebraic
formulas for a (0,2) generalization of genus zero Gromov-Witten invariants of
compact toric varieties. We derive compact expressions for deformed quantum
cohomology relations and apply our general method to several examples.Comment: 21 pages, LaTex; typos corrected; some discussion adde
GLSMs for non-Kahler Geometries
We identify a simple mechanism by which H-flux satisfying the modified
Bianchi identity arises in garden-variety (0,2) gauged linear sigma models.
Taking suitable limits leads to effective gauged linear sigma models with
Green-Schwarz anomaly cancellation. We test the quantum-consistency of a class
of such effective theories by constructing an off-shell superconformal algebra,
providing evidence that these models run to good CFTs in the deep IR.Comment: 37 pages, Minor updates for v
Investigation of vertical cavity surface emitting laser dynamics for neuromorphic photonic systems
We report an approach based upon vertical cavity surface emitting lasers (VCSELs) to reproduce optically different behaviors exhibited by biological neurons but on a much faster timescale. The technique proposed is based on the polarization switching and nonlinear dynamics induced in a single VCSEL under polarized optical injection. The particular attributes of VCSELs and the simple experimental configuration used in this work offer prospects of fast, reconfigurable processing elements with excellent fan-out and scaling potentials for use in future computational paradigms and artificial neural networks. © 2012 American Institute of Physics
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