5,121 research outputs found
Three-boson problem near a narrow Feshbach resonance
We consider a three-boson system with resonant binary interactions and show
that three-body observables depend only on the resonance width and the
scattering length. The effect of narrow resonances is qualitatively different
from that of wide resonances revealing novel physics of three-body collisions.
We calculate the rate of three-body recombination to a weakly bound level and
the atom-dimer scattering length and discuss implications for experiments on
Bose-Einstein condensates and atom-molecule mixtures near Feshbach resonances.Comment: published versio
Can an electric current orient spins in quantum wells?
A longstanding theoretical prediction is the orientation of spins by an
electrical current flowing through low-dimensional carrier systems of
sufficiently low crystallographic symmetry. Here we show by means of terahertz
transmission experiments through two-dimensional hole systems a growing spin
orientation with an increasing current at room temperature.Comment: 5 pages, 2 figure
Circular photon drag effect in bulk tellurium
The circular photon drag effect is observed in a bulk semiconductor. The
photocurrent caused by a transfer of both translational and angular momenta of
light to charge carriers is detected in tellurium in the mid-infrared frequency
range. Dependencies of the photocurrent on the light polarization and on the
incidence angle agree with the symmetry analysis of the circular photon drag
effect. Microscopic models of the effect are developed for both intra- and
inter-subband optical absorption in the valence band of tellurium. The shift
contribution to the circular photon drag current is calculated. An observed
decrease of the circular photon drag current with increase of the photon energy
is explained by the theory for inter-subband optical transitions. Theoretical
estimates of the circular photon drag current agree with the experimental data.Comment: 8 pages, 4 figure
Near-Field Scanning Microwave Microscopy in the Single Photon Regime
The microwave properties of nano-scale structures are important in a wide
variety of applications in quantum technology. Here we describe a low-power
cryogenic near-field scanning microwave microscope (NSMM) which maintains
nano-scale dielectric contrast down to the single microwave photon regime, up
to times lower power than in typical NSMMs. We discuss the remaining
challenges towards developing nano-scale NSMM for quantum coherent interaction
with two-level systems as an enabling tool for the development of quantum
technologies in the microwave regime
Four-body Efimov effect
We study three same spin state fermions of mass M interacting with a
distinguishable particle of mass m in the unitary limit where the interaction
has a zero range and an infinite s-wave scattering length. We predict an
interval of mass ratio 13.384 < M/m < 13.607 where there exists a purely
four-body Efimov effect, leading to the occurrence of weakly bound tetramers
without Efimov trimers.Comment: 4 pages, 2 figure
Antidepressants are selective serotonin neuronal reuptake inhibitors: 40-year history
The paper presents historical prerequisites for designing antidepressants from a group of selective serotonin neuronal reuptake inhibitors (SSRIs): to determine a lower serotonin concentration in the different tissues of depressed patients; to establish a higher serotonin concentration in the treatment of depressed patients with tricyclic antidepressants, and to formulate the serotonergic theory of depression. It also provides a consecutive account of the history of clinical introduction of individual SSRI representatives, such as fluoxetine, zimelidine, fluvoxamine, indalpine, citalopram, sertraline, paroxetine, and escitalopram. There are data from the history of studying the mechanism of SSRI action: from the theory of the importance of an increase in the concentration of serotonin in the synaptic cleft to the current understanding of complex successive intracellular rearrangements at the level of the postsynaptic neuron. The history of studying the efficacy of SSRIs in treating depression is considered in detail. Emphasis is laid on the reasons for a paradoxical difference in the evaluations of the efficiency of therapy with SSRIs versus other groups of antidepressants at different developmental stages of psychopharmacology. The role of marketing technologies in disseminating the data on the efficacy of this or that group of antidepressants is described. The practical significance of differences in individual SSRI representatives (the potency of serotonin uptake inhibition; the degree of selectivity and activity against the serotonergic system; the likelihood of an unfavorable pharmacokinetic interaction with other drugs; the half-life of elimination; the quickness of achieving a therapeutic dose) is analyzed. Whether it is possible and reasonable to differentially choose different SSRI representatives in the treatment of depressions at the present stage is discussed. The authors state their belief that researches should be continued to specify the place of SSRIs among other groups of current antidepressants for the treatment of depressions
Differential Form of the Skornyakov--Ter-Martirosyan Equations
The Skornyakov--Ter-Martirosyan three-boson integral equations in momentum
space are transformed into differential equations. This allows us to take into
account quite directly the Danilov condition providing self-adjointness of the
underlying three-body Hamiltonian with zero-range pair interactions. For the
helium trimer the numerical solutions of the resulting differential equations
are compared with those of the Faddeev-type AGS equations.Comment: 4 pages, 2 figure
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