3,626 research outputs found
The rate of synthesis and decomposition of tissue proteins in hypokinesia and increased muscular activity
During hypokinesia and physical loading (swimming) of rats, the radioactivity of skeletal muscle, liver, kidney, heart, and blood proteins was determined after administration of radioactive amino acids. Tissue protein synthesis decreased during hypokinesia, and decomposition increased. Both synthesis and decomposition increased during physical loading, but anabolic processes predominated in the total tissue balance. The weights of the animals decreased in hypokinesia and increased during increased muscle activity
Q-complements on log surfaces
In this paper the log surfaces without \QQ-complement are classified. In
particular, they are non-rational always. This result takes off the restriction
in the theory of complements and allows one to apply it in the most wide class
of log surfaces.Comment: Latex2e, 3 page
Two-color interference stabilization of atoms
The effect of interference stabilization is shown to exist in a system of two
atomic levels coupled by a strong two-color laser field, the two frequencies of
which are close to a two-photon Raman-type resonance between the chosen levels,
with open channels of one-photon ionization from both of them. We suggest an
experiment, in which a rather significant (up to 90%) suppression of ionization
can take place and which demonstrates explicitly the interference origin of
stabilization. Specific calculations are made for H and He atoms and optimal
parameters of a two-color field are found. The physics of the effect and its
relation with such well-known phenomena as LICS and population trapping in a
three-level system are discussed.Comment: the paper includes 1 TeX file and 16 picture
Teleportation in an indivisible quantum system
Teleportation protocol is conventionally treated as a method for quantum
state transfer between two spatially separated physical carriers. Recent
experimental progress in manipulation with high-dimensional quantum systems
opens a new framework for implementation of teleportation protocols. We show
that the one-qubit teleportation can be considered as a state transfer between
subspaces of the whole Hilbert space of an indivisible eight-dimensional
system. We explicitly show all corresponding operations and discuss an
alternative way of implementation of similar tasks.Comment: 4 pages, 1 figure, 1 tabl
Superfluidity of identical fermions in an optical lattice: atoms and polar molecules
In this work, we discuss the emergence of -wave superfluids of identical
fermions in 2D lattices. The optical lattice potential manifests itself in an
interplay between an increase in the density of states on the Fermi surface and
the modification of the fermion-fermion interaction (scattering) amplitude. The
density of states is enhanced due to an increase of the effective mass of
atoms. In deep lattices, for short-range interacting atoms, the scattering
amplitude is strongly reduced compared to free space due to a small overlap of
wavefunctions of fermions sitting in the neighboring lattice sites, which
suppresses the -wave superfluidity. However, we show that for a moderate
lattice depth there is still a possibility to create atomic -wave
superfluids with sizable transition temperatures. The situation is drastically
different for fermionic polar molecules. Being dressed with a microwave field,
they acquire a dipole-dipole attractive tail in the interaction potential.
Then, due to a long-range character of the dipole-dipole interaction, the
effect of the suppression of the scattering amplitude in 2D lattices is absent.
This leads to the emergence of a stable topological superfluid of
identical microwave-dressed polar molecules.Comment: 14 pages, 4 figures; prepared for proceedings of the IV International
Conference on Quantum Technologies (Moscow, July 12-16, 2017); the present
paper summarizes the results of our studies arXiv:1601.03026 and
arXiv:1701.0852
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