11,303 research outputs found
N-body simulations with two-orders-of-magnitude higher performance using wavelets
Noise is a problem of major concern for N-body simulations of structure
formation in the early Universe, of galaxies and plasmas. Here for the first
time we use wavelets to remove noise from N-body simulations of disc galaxies,
and show that they become equivalent to simulations with two orders of
magnitude more particles. We expect a comparable improvement in performance for
cosmological and plasma simulations. Our wavelet code will be described in a
following paper, and will then be available on request.Comment: Mon. Not. R. Astron. Soc., in press. The interested reader is
strongly recommended to ignore the low-resolution Fig. 3 (and Fig. 4), and to
download the full-resolution paper (700 kb) from
http://www.oso.chalmers.se/~romeo/Paper_VI.ps.g
Properties of galaxy halos in Clusters and Voids
We use the results of a high resolution N-body simulation to investigate the
role of the environment on the formation and evolution of galaxy-sized halos.
Starting from a set of constrained initial conditions, we have produced a final
configuration hosting a double cluster in one octant and a large void extending
over two octants of the simulation box. We present results for two statistics:
the relationship between 1-D velocity dispersion and mass and the probability
distribution of the spin parameter . The \svm relationship is well
reproduced by the Truncated Isothermal Sphere (TIS) model introduced by Shapiro
et al. (1999), although the slope is different from the original prediction. A
series of \svm relationships for different values of the anisotropy parameter
, obtained using the theoretical predictions by Lokas and Mamon (2001)
for NFW density profiles are found to be only marginally consistent with the
data. Using some properties of the equilibrium TIS models, we construct
subsamples of {\em fiducial} equilibrium TIS halos from each of the three
subregions, and we study their properties. For these halos, we do find an
environmental dependence of their properties, in particular of the spin
parameter distribution . We study in more detail the TIS model, and
we find new relationships between the truncation radius and other structural
parameters. No gravitationally bound halo is found having a radius larger than
the critical value for gravithermal instability for TIS halos (\rt , where is the core radius of the TIS solution). We do however
find a dependence of this relationship on the environment, like for the
statistics. These facts hint at a possible r\^{o}le of tidal
fields at determining the statistical properties of halos.Comment: 12 pages, 14 figures. Accepted by MNRAS. Adopted an improved
algorithm for halo finding and added a comparison with NFW model
A wavelet add-on code for new-generation N-body simulations and data de-noising (JOFILUREN)
Wavelets are a new and powerful mathematical tool, whose most celebrated
applications are data compression and de-noising. In Paper I (Romeo, Horellou &
Bergh 2003, astro-ph/0302343), we have shown that wavelets can be used for
removing noise efficiently from cosmological, galaxy and plasma N-body
simulations. The expected two-orders-of-magnitude higher performance means, in
terms of the well-known Moore's law, an advance of more than one decade in the
future. In this paper, we describe a wavelet add-on code designed for such an
application. Our code can be included in common grid-based N-body codes, is
written in Fortran, is portable and available on request from the first author.
The code can also be applied for removing noise from standard data, such as
signals and images.Comment: Mon. Not. R. Astron. Soc., in press. The interested reader is
strongly recommended to ignore the low-resolution Figs 10 and 11, and to
download the full-resolution paper (800 kb) from
http://www.oso.chalmers.se/~romeo/Paper_VII.ps.g
Synthesis and biological evaluation of phosphonated dihydroisoxazole nucleosides
Phosphonated isoxazolinyl nucleosides have been prepared via 1,3-dipolar cycloaddition reaction of nitrile oxides with
corresponding vinyl or allyl nucleobases for antiviral studies. The cytotoxicity, the anti-HSV activity and the RT-inhibitory activity
of the obtained compounds were evaluated and compared with those of AZT and diethyl{(10SR,40RS)-10-[[(5-methyl-2,4-dioxo-3,4-
dihydropyrimidin-1(2H)-yl)]-30-methyl-20-oxa-30-azacyclopent-40-yl]}methylphosphonate, a saturated phosphonated dihydroisoxazole
nucleoside analogue
The Structure of Isothermal, Self-gravitating Gas Spheres for Softened Gravity
A theory for the structure of isothermal, self-gravitating gas spheres in
pressure equilibrium in a softened gravitational field is developed. The one
parameter spline softening proposed by Hernquist & Katz (1989) is used. We show
that the addition of this extra scale parameter implies that the set of
equilibrium solutions constitute a one-parameter family, rather than the one
and only one isothermal sphere solution for Newtonian gravity. We demonstrate
the perhaps somewhat surprising result that for any finite choice of softening
length and temperature, it is possible to deposit an arbitrarily large mass of
gas in pressure equilibrium and with a non-singular density distribution inside
of r_0 for any r_0 > 0. The theoretical predictions of our models are compared
with the properties of the small, massive, quasi-isothermal gas clumps which
typically form in numerical Tree-SPH simulations of 'passive' galaxy formation
of Milky Way sized galaxies. We find reasonable agreement despite the neglect
of rotational support in the models. We comment on whether the hydrodynamical
resolution in our numerical simulation of galaxy formation is sufficient, and
finally we conclude that one should be cautious, when comparing results of
numerical simulations involving gravitational softening and hydrodynamical
smoothing, with reality.Comment: 22 pages Latex + 12 figure
How Does Casimir Energy Fall?
Doubt continues to linger over the reality of quantum vacuum energy. There is
some question whether fluctuating fields gravitate at all, or do so
anomalously. Here we show that for the simple case of parallel conducting
plates, the associated Casimir energy gravitates just as required by the
equivalence principle, and that therefore the inertial and gravitational masses
of a system possessing Casimir energy are both . This simple
result disproves recent claims in the literature. We clarify some pitfalls in
the calculation that can lead to spurious dependences on coordinate system.Comment: 5 pages, 1 figure, REVTeX. Minor revisions, including changes in
reference
Remediation Technology Collaboration Development - A Compendium
During its multi-year period of performance, the Remediation Technology Collaboration Development (RTCD) task orders initial goals were to enhance the capability to specifically target reductions in the long-term liabilities associated with NASAs most challenging remediation sites. This was accomplished by identifying existing remediation processes and conditions, researching site-specific technologies (both past and present) while simultaneously looking for parallel situations where these technologies could be applied. In addition, the most promising of these solutions were developed from comprehensive research and bench studies into pilot studies or demonstration projects, which contributed significantly to the success of the RTCD program
The Formation of a Realistic Disk Galaxy in Lambda Dominated Cosmologies
We simulate the formation of a realistic disk galaxy within the hierarchical
scenario of structure formation and study its internal properties to the
present epoch. We compare results from a LambdaCDM simulation with a LambdaWDM
(2keV) simulation that forms significantly less small scale structure. We show
how high mass and force resolution in both the gas and dark matter components
play an important role in solving the angular momentum catastrophe claimed from
previous simulations of galaxy formation within the hierarchical framework. The
stellar material in the disk component has a final specific angular momentum
equal to 40% and 90% of that of the dark halo in the LambdaCDM and LambdaWDM
models respectively. The LambdaWDM galaxy has a drastically reduced satellite
population and a negligible stellar spheroidal component. Encounters with
satellites play only a minor role in disturbing the disk. Satellites possess a
variety of star formation histories linked to mergers and pericentric passages
along their orbit around the primary galaxy. In both cosmologies, the galactic
halo retains most of the baryons accreted and builds up a hot gas phase with a
substantial X-ray emission. Therefore, while we have been successful in
creating a realistic stellar disk in a massive galaxy within the LambdaCDM
scenario, energy injection emerges as necessary ingredient to reduce the baryon
fraction in galactic halos, independent of the cosmology adopted. (abridged)Comment: ApJ in press. Images and movies at
http://hpcc.astro.washington.edu/faculty/fabio/galform.html Significantly
expanded revised version. (9 pages vs the original 4
Phosphonated Carbocyclic 2'-Oxa-3'-azanucleosides as New Antiretroviral Agents
Phosphonated carbocyclic 2Âą-oxa-3Âą-azanucleosides have been synthesized and tested for their antiretroviral
activity. The obtained results have shown that some of the compounds were as powerful as azydothymidine
in inhibiting the reverse transcriptase activity of the human retrovirus T-cell leukemia/lymphotropic virus
type 1 and in protecting human peripheral blood mononuclear cells against human retrovirus T-cell leukemia/
lymphotropic virus type 1 transmission in vitro. These data indicate that phosphonated carbocyclic 2Âą-oxa-
3Âą-azanucleosides possess the necessary requirements to efficiently counteract infections caused by human
retroviruses
How does Casimir energy fall? III. Inertial forces on vacuum energy
We have recently demonstrated that Casimir energy due to parallel plates,
including its divergent parts, falls like conventional mass in a weak
gravitational field. The divergent parts were suitably interpreted as
renormalizing the bare masses of the plates. Here we corroborate our result
regarding the inertial nature of Casimir energy by calculating the centripetal
force on a Casimir apparatus rotating with constant angular speed. We show that
the centripetal force is independent of the orientation of the Casimir
apparatus in a frame whose origin is at the center of inertia of the apparatus.Comment: 8 pages, 2 figures, contribution to QFEXT07 proceeding
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