33,010 research outputs found
Quantum heat fluctuations of single particle sources
Optimal single electron sources emit regular streams of particles, displaying
no low frequency charge current noise. Due to the wavepacket nature of the
emitted particles, the energy is however fluctuating, giving rise to heat
current noise. We investigate theoretically this quantum source of heat noise
for an emitter coupled to an electronic probe in the hot-electron regime. The
distribution of temperature and potential fluctuations induced in the probe is
shown to provide direct information on the single particle wavefunction
properties and display strong non-classical features.Comment: 5 pages, 2 figure
Recent Developments in Osteogenesis Imperfecta
Osteogenesis imperfecta (OI) is an uncommon genetic bone disease associated with brittle bones and fractures in children and adults. Although OI is most commonly associated with mutations of the genes for type I collagen, many other genes (some associated with type I collagen processing) have now been identified. The genetics of OI and advances in our understanding of the biomechanical properties of OI bone are reviewed in this article. Treatment includes physiotherapy, fall prevention, and sometimes orthopedic procedures. In this brief review, we will also discuss current understanding of pharmacologic therapies for treatment of OI
Guidance algorithms for a free-flying space robot
Robotics is a promising technology for assembly, servicing, and maintenance of platforms in space. Several aspects of planning and guidance for telesupervised and fully autonomous robotic servicers are investigated. Guidance algorithms for proximity operation of a free flyer are described. Numeric trajectory optimization is combined with artificial intelligence based obstacle avoidance. An initial algorithm and the results of its simulating platform servicing scenario are discussed. A second algorithm experiment is then proposed
Tomonaga-Luttinger physics in electronic quantum circuits
In one-dimensional conductors, interactions result in correlated electronic
systems. At low energy, a hallmark signature of the so-called
Tomonaga-Luttinger liquids (TLL) is the universal conductance curve predicted
in presence of an impurity. A seemingly different topic is the quantum laws of
electricity, when distinct quantum conductors are assembled in a circuit. In
particular, the conductances are suppressed at low energy, a phenomenon called
dynamical Coulomb blockade (DCB). Here we investigate the conductance of
mesoscopic circuits constituted by a short single-channel quantum conductor in
series with a resistance, and demonstrate a proposed link to TLL physics. We
reformulate and establish experimentally a recently derived phenomenological
expression for the conductance using a wide range of circuits, including carbon
nanotube data obtained elsewhere. By confronting both conductance data and
phenomenological expression with the universal TLL curve, we demonstrate
experimentally the predicted mapping between DCB and the transport across a TLL
with an impurity.Comment: 9p,6fig+SI; to be published in nature comm; v2: mapping extended to
finite range interactions, added discussion and SI material, added reference
Constraining blazar distances with combined Fermi and TeV data: an empirical approach
We discuss a method to constrain the distance of blazars with unknown
redshift using combined observations in the GeV and TeV regimes. We assume that
the VHE spectrum corrected for the absorption through the interaction with the
Extragalactic Background Light can not be harder than the spectrum in the
Fermi/LAT band. Starting from the observed VHE spectral data we derive the
EBL-corrected spectra as a function of the redshift z and fit them with power
laws to be compared with power law fits to the LAT data. We apply the method to
all TeV blazars detected by LAT with known distance and derive an empirical law
describing the relation between the upper limits and the true redshifts that
can be used to estimate the distance of unknown redshift blazars. Using
different EBL models leads to systematic changes in the derived upper limits.
Finally, we use this relation to infer the distance of the unknown redshift
blazar PKS 1424+240.Comment: 5 pages, 4 figures, accepted for publication in MNRAS, minor revisio
The H.E.S.S. extragalactic sky
The H.E.S.S. Cherenkov telescope array, located on the southern hemisphere in
Namibia, studies very high energy (VHE; E>100 GeV) gamma-ray emission from
astrophysical objects. During its successful operations since 2002 more than 80
galactic and extra-galactic gamma-ray sources have been discovered. H.E.S.S.
devotes over 400 hours of observation time per year to the observation of
extra-galactic sources resulting in the discovery of several new sources,
mostly AGNs, and in exciting physics results e.g. the discovery of very rapid
variability during extreme flux outbursts of PKS 2155-304, stringent limits on
the density of the extragalactic background light (EBL) in the near-infrared
derived from the energy spectra of distant sources, or the discovery of
short-term variability in the VHE emission from the radio galaxy M 87. With the
recent launch of the Fermi satellite in 2008 new insights into the physics of
AGNs at GeV energies emerged, leading to the discovery of several new
extragalactic VHE sources. Multi-wavelength observations prove to be a powerful
tool to investigate the production mechanism for VHE emission in AGNs. Here,
new results from H.E.S.S. observations of extragalactic sources will be
presented and their implications for the physics of these sources will be
discussed.Comment: 8 pages, 6 figures, invited review talk, in the proceedings of the
"International Workshop on Beamed and Unbeamed Gamma-Rays from Galaxies"
11-15 April 2011, Lapland Hotel Olos, Muonio, Finland, Journal of Physics:
Conference Series Volume 355, 201
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