3,149 research outputs found
Electronic Social Media: Friend or Foe for Judges
The use of electronic social communication has grown at a phenomenal rate. Facebook, the most popular social networking website, has over 1,968,000,000 users—a number that has exponentially grown since its inception in 2004. The number of judges accessing and using electronic social media (ESM) has also increased. However, unlike the general population, judges must consider constitutional, ethical, technical, and evidentiary implications when they use and access ESM. The First Amendment forbids “abridging the freedom of speech” and protects the expression of personal ideas, positions, and views. However, the American Bar Association’s Model Code of Judicial Conduct and the Texas Code of Judicial Conduct require a judge to “act at all times in a manner that promotes public confidence in the independence, [] integrity, [] and impartiality [] of the judiciary and . . . [to] avoid impropriety and the appearance of impropriety” in all areas of the judge’s activities.” Additionally, for the judges that are elected, the essential use of ESM in campaigns creates an additional ethical dimension. The virality or the capability to share and re-share content exponentially, makes judges’ expression and conduct more vulnerable to public scrutiny. This Article examines ESM’s use and impact on the judiciary. It will examine the parameters imposed by the Texas Code of Judicial Conduct on the use of ESM by reviewing and comparing recent state and national developments
Fermi surface and superconductivity in low-density high-mobility {\delta}-doped SrTiO3
The electronic structure of low-density n-type SrTiO3 delta-doped
heterostructures is investigated by angular dependent Shubnikov-de Haas
oscillations. In addition to a controllable crossover from a three- to
two-dimensional Fermi surface, clear beating patterns for decreasing dopant
layer thicknesses are found. These indicate the lifting of the degeneracy of
the conduction band due to subband quantization in the two-dimensional limit.
Analysis of the temperature-dependent oscillations shows that similar effective
masses are found for all components, associated with the splitting of the light
electron pocket. The dimensionality crossover in the superconducting state is
found to be distinct from the normal state, resulting in a rich phase diagram
as a function of dopant layer thickness.Comment: 4 pages, 5 figures, submitted for publicatio
A note on Hawking radiation via complex path analysis
As long as we neglect backreaction, the Hawking temperature of a given black
hole would not depend upon the parameters of the particle species we are
considering. In the semiclassical complex path analysis approach of Hawking
radiation, this has been verified by taking scalar and Dirac spinors separately
for different stationary spacetime metrics. Here we show, in a coordinate
independent way that, for an arbitrary spacetime with any number of dimensions,
the equations of motion for a Dirac spinor, a vector, spin- and
spin- fields reduce to Klein-Gordon equations in the WKB
semiclassical limit. We then obtain, under some suitable assumptions, the
complex solutions of those resulting scalar equations across the Killing
horizon of a stationary spacetime to get a coordinate independent expression
for the emission probability identical for all particle species. Finally we
consider some explicit examples to demonstrate the validity of that expression.Comment: 12 pages, v2; manuscript divided into sections, many discussions and
references adde
Particle creation in Bose--Einstein condensates: Theoretical formulation based on conserving gapless mean field theory
We formulate particle creation phenomena in Bose--Einstein condensates in
terms of conserving gapless mean field theory for weakly interacting Bose
gases. The particle creation spectrum is calculated by rediagonalizing the
Bogoliubov--de Gennes (BdG) Hamiltonian in mean field theory. The conservation
implies that quasiparticle creation is accompanied by quantum backreaction to
the condensates. Particle creation in this mean field theory is found to be
equivalent to that in quantum field theory (QFT) in curved spacetime. An
expression is obtained for an effective metric affected by quantum
backreaction. The formula for the particle creation spectrum obtained in terms
of QFT in curved spacetime is shown to be the same as that given by
rediagonalizing the BdG Hamiltonian.Comment: 9 pages, typos correcte
Thermodynamics of Squashed Kaluza-Klein Black Holes and Black Strings -- A Comparison of Reference Backgrounds --
We investigate thermodynamics constructed on different background reference
spacetimes for squashed Kaluza-Klein (SqKK) black hole and electrically charged
black string in five-dimensional Einstein-Maxwell system. Two spacetimes are
possible to be reference spacetimes giving finite gravitational classical
actions: one is four-dimensional Minkowski times a circle and the other is the
KK monopole. The boundary of the SqKK black hole can not be matched perfectly
to that of the former reference spacetime because of the difference in
topology. However, the resultant classical action coincides with that
calculated by the counterterm subtraction scheme. The boundary of the KK
monopole has the same topology with that of the SqKK black hole and can be
matched to the boundary of the black hole perfectly. The resultant action takes
different value from the result given by using the former reference spacetime.
After a brief review of thermodynamic quantities of the black hole solutions,
we calculate thermodynamic potentials relevant for several thermodynamic
environments. The most stable state is different for each environment: For
example, the KK monopole is the most stable state in isothermal environment
with fixed gravitational tension. On the other hand, when the size of the
extra-dimension is fixed, the Minkowski times a circle is the most stable. It
is shown that these two spacetimes can be reference spacetimes of the
five-dimensional black string.Comment: 28 pages; references added, typo corrected;version accepted for
publication in Class. Quantum Gra
V1647 Orionis (IRAS 05436-0007) : A New Look at McNeil's Nebula
We present a study of the newly discovered McNeil's nebula in Orion using the
JHKs-band simultaneous observations with the near-infrared (NIR) camera SIRIUS
on the IRSF 1.4m telescope. The cometary infrared nebula is clearly seen
extending toward north and south from the NIR source (V1647 Orionis) that
illuminates McNeil's nebula. The compact nebula has an apparent diameter of
about 70 arcsec. The nebula is blue (bright in J) and has a cavity structure
with two rims extending toward north-east and north-west. The north-east rim is
brighter and sharp, while the north-west rim is diffuse. The north-east rim can
be traced out to ~ 40 arcsec from the location of the NIR source. In contrast,
no cavity structure is seen toward the south, although diffuse nebula is
extended out to ~ 20 arcsec. New NIR photometric data show a significant
variation in the magnitudes (> 0.15 mag) of the source of McNeil's nebula
within a period of one week, that is possibly under the phase of eruptive
variables like FUors or EXors.Comment: 13 pages, 5 figures in JPEG format. Accepted for the publication in
PASJ Letter
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