16 research outputs found
Preparation of facilities for fundamental research with ultracold neutrons at PNPI
The WWR-M reactor of PNPI offers a unique opportunity to prepare a source for
ultracold neutrons (UCN) in an environment of high neutron flux (about 3*10^12
n/cm^2/s) at still acceptable radiation heat release (about 4*10^-3 W/g). It
can be realized within the reactor thermal column situated close to the reactor
core. With its large diameter of 1 m, this channel allows to install a 15 cm
thick bismuth shielding, a graphite premoderator (300 dm^3 at 20 K), and a
superfluid helium converter (35 dm^3). At a temperature of 1.2 K it is possible
to remove the heat release power of about 20 W. Using the 4pi flux of cold
neutrons within the reactor column can bring more than a factor 100 of cold
neutron flux incident on the superfluid helium with respect to the present cold
neutron beam conditions at the ILL reactor. The storage lifetime for UCN in
superfluid He at 1.2 K is about 30 s, which is sufficient when feeding
experiments requiring a similar filling time. The calculated density of UCN
with energy between 50 neV and 250 neV in an experimental volume of 40 liters
is about 10^4 n/cm^3. Technical solutions for realization of the project are
discussed.Comment: 10 pages, more detail
Brane matter, hidden or mirror matter, their various avatars and mixings: many faces of the same physics
Numerous papers deal with the phenomenology related to photon-hidden photon
kinetic mixing and with the effects of a mass mixing on particle-hidden
particle oscillations. In addition, recent papers underline the existence of a
geometrical mixing between branes which would allow a matter swapping between
branes. These approaches and their phenomenologies are reminiscent of each
other but rely on different physical concepts. In the present paper, we suggest
there is no rivalry between these models, which are probably many faces of the
same physics. We discuss some phenomenological consequences of a global
framework.Comment: 9 pages. Typo corrected. Published in European Physical Journal
Primordial He4 Abundance Constrains the Possible Time Variation of the Higgs Vacuum Expectation Value
We constrain the possible time variation of the Higgs vacuum expectation
value () by recent results on the primordial abundance (). For
that, we use an analytic approach which enables us to take important issues
into consideration, that have been ignored by previous works, like the
-dependence of the relevant cross sections of deuterium production and
photodisintegration, including the full Klein- Nishina cross section.
Furthermore, we take a non-equilibrium Ansatz for the freeze-out concentration
of neutrons and protons and incorporate the latest results on the neutron
decay. Finally, we approximate the key-parameters of the primordial
production (the mean lifetime of the free neutron and the binding energy of the
deuteron) by terms of (where denotes the present theoretical
estimate). Eventually, we derive the relation and the most stringent
limit on a possible time variation of is given by: .Comment: Accepted for publication in IJT
DETERMINATION OF BONE DENSITY IN THE GRINDER TEETH AREA
Comparison of bone density among men and women in the area of the proposed dental implantation in the region of the grinder teeth of the upper jaws. In the 21st century, various methods are used to determine bone density in the area of dental implantation; the most common is computer tomography. For a better understanding of computed tomography scans, the dentist uses various computer programs. In our work, we used the Ez3D2009 program of Vatech Co., Ltd. to compare bone density in the area of intended dental implantation in the region of the grinder teeth of men and women. Estimation of bone density in the area of intended dental implantation in the region of the grinder teeth is necessary for the best choice of implants, the progress of the surgical operation, makes it possible to predict more accurately the duration of treatment, ensure reliable fixation and long-term functioning of implants