Recombination kinetics of a dense electron-hole plasma in strontium titanate

We investigated the nanosecond-scale time decay of the blue-green light emitted by nominally pure SrTiO$_3$ following the absorption of an intense picosecond laser pulse generating a high density of electron-hole pairs. Two independent components are identified in the fluorescence signal that show a different dynamics with varying excitation intensity, and which can be respectively modeled as a bimolecular and unimolecolar process. An interpretation of the observed recombination kinetics in terms of interacting electron and hole polarons is proposed

Neutralization of feline immunodeficiency virus by antibodies targeting the V5 loop of Env

Neutralising antibodies (NAbs) play a vital role in vaccine-induced protection against infection with feline immunodeficiency virus (FIV). However, little is known about the appropriate presentation of neutralisation epitopes in order to induce NAbs effectively; the majority of the antibodies that are induced are directed against non-neutralising epitopes. Here, we demonstrate that a subtype B strain of FIV, designated NG4, escapes autologous NAbs but may be rendered neutralisation-sensitive following the insertion of two amino acids, Lysine and Threonine, at positions 556-557 in the fifth hypervariable (V5) loop of the envelope glycoprotein (Env). Consistent with the contribution of this motif to virus neutralisation, an additional three subtype B strains retaining both residues at the same position were also neutralised by the NG4 serum and serum from an unrelated cat (TOT1) targeted the same sequence in V5. Moreover, when the V5-loop of subtype B isolate KNG2, an isolate that was moderately resistant to neutralisation by NG4 serum, was mutated to incorporate the K-T motif, the virus was rendered sensitive to neutralisation. These data suggest that even in a polyclonal sera derived from FIV infected cats following natural infection, the primary determinant of virus neutralising activity may be represented by a single, dominant epitope in V5

Magnon-photon coupling in the noncollinear magnetic insulator Cu 2 OSeO 3

Anticrossing behavior between magnons in the noncollinear chiral magnet Cu2OSeO3 and a two-mode X-band microwave resonator was studied in the temperature range 5–100 K. In the field-induced ferrimagnetic phase, we observed a strong-coupling regime between magnons and two microwave cavity modes with a cooperativity reaching 3600. In the conical phase, cavity modes are dispersively coupled to a fundamental helimagnon mode, and we demonstrate that the magnetic phase diagram of Cu2OSeO3 can be reconstructed from the measurements of the cavity resonance frequency. In the helical phase, a hybridized state of a higher-order helimagnon mode and a cavity mode—a helimagnon polariton—was found. Our results reveal a class of magnetic systems where strong coupling of microwave photons to nontrivial spin textures can be observed

Dynamics of Multiferroic Domain Wall in Spin-Cycloidal Ferroelectric DyMnO3_{3}

We report the dielectric dispersion of the giant magnetocapacitance (GMC) in multiferroic DyMnO$_{3}$ over a wide frequency range. The GMC is found to be attributable not to the softened electromagnon but to the electric-field-driven motion of multiferroic domain wall (DW). In contrast to conventional ferroelectric DWs, the present multiferroic DW motion holds extremely high relaxation rate of $\sim$$10^{7}$ s$^{-1}$ even at low temperatures. This mobile nature as well as the model simulation suggests that the multiferroic DW is not atomically thin as in ferroelectrics but thick, reflecting its magnetic origin.Comment: 4 pages, 4 figure

Sub-Cycle Optical Response Caused by Dressed State with Phase-Locked Wavefunctions

The coherent interaction of light with matter imprints the phase information of the light field on the wavefunction of the photon-dressed electronic state. Driving electric field, together with a stable phase that is associated with the optical probe pulses, enables the role of the dressed state in the optical response to be investigated. We observed optical absorption strengths modulated on a sub-cycle timescale in a GaAs quantum well in the presence of a multi-cycle terahertz driving pulse using a near-infrared probe pulse. The measurements were in good agreement with the analytical formula that accounts for the optical susceptibilities caused by the dressed state of excitons, which indicates that the output probe intensity was coherently reshaped by the excitonic sideband emissions

CoO2-Layer-Thickness Dependence of Magnetic Properties and Possible Two Different Superconducting States in NaxCoO2.yH2O

In order to understand the experimentally proposed phase diagrams of NaxCoO2.yH2O, we theoretically study the CoO2-layer-thickness dependence of magnetic and superconducting (SC) properties by analyzing a multiorbital Hubbard model using the random phase approximation. When the Co valence (s) is +3.4, we show that the magnetic fluctuation exhibits strong layer-thickness dependence where it is enhanced at finite (zero) momentum in the thicker (thinner) layer system. A magnetic order phase appears sandwiched by two SC phases, consistent with the experiments. These two SC phases have different pairing states where one is the singlet extended s-wave state and the other is the triplet p-wave state. On the other hand, only a triplet p-wave SC phase with dome-shaped behavior of Tc is predicted when s=+3.5, which is also consistent with the experiments. Controversial experimental results on the magnetic properties are also discussed.Comment: 5 pages, 4 figures. Submitted to Journal of the Physical Society of Japa

DYNAMICAL FACTORS RELATED TO VERTICAL JUMP PERFOMANCE

INTRODUCTION - In most of sport exercises, the displacement of body Center of Mass (CM) is an important factor to de-terminate performance. And greater the velocity at takeoff phase, greater the height achieved by the body CM. High jumps are influenced by the net combination of different joints moments and its synchronization during this task. Thus, also the countermovement may influence high jump performance (HOCHMUTH & MARHOLD, 1978). To measure the effectiveness of training into increasing the height in vertical jump relays information to both coach and athlete in manner to adapt the training. The purpose of this study is to analyze temporal and frequencies factors of ground reaction force GRF and the effect of limitation of arms swing and trunk extension in vertical jump. METHODS AND EQUIPMENT - All the exercises were performed on a strain gauges force platform. The ground reaction force (GRF) had been sampled at 800 Hz frequency and after the determination of its frequency components by the use of FFT, the raw signals were low-pass filtered at 160 Hz. A video camera was exerted to control the set of jumps. The volunteer subject for this study was a male high jumper, 26 years old, 70.4f0.5 kg weight, 184.0k0.5 cm tall. Four different types of vertical jumps were performed (set of 5 trials) and analyzed in this study: 1) standard vertical jump; 2) jump with- out the elevation of upper limbs; 3) jump without the extension of trunk; and 4) jump without both the elevation of upper limbs and extension of trunk. All that jumps were preceded by countermovement. RESULTS AND DISCUSSION - Although four different techniques had been per- formed for high jumps, the temporal factors (DOWLINH & VAMOS, 1993) did not differ statistically (duration of major positive impulse and duration of major negative impulse). Eccentric and concentric phases was not different statistically. Power spectral analysis has showed that trunk mobility might be more influent than upper limb swing in the dynamic4 characteristics of the analyzed movement. Informations provided by spectral analysis probably relays important data to identify the influence of different body segments in vertical jump. It was not confirmed that the maintenance of a steady state just before the maximum vertical GRF or reducing the depression between the two positive peaks is related to the acceleration caused by arms swing. On the other hand, our results indicate that the first positive peak is probably exerted by trunk extension. In spite of the limitation of trunk and upper limb mobility, it is clear that is not possible to exclude their influence in total body moment of inertia. CONCLUSION - According to our results, despite different jumping exercises, restrictions to joints mobility changes the maxi- mum vertical GRF. Besides, tests that intend to measure the performance in high jumps according the use or not of parts of the human body may be reconsidered. REFERENCES Hochmuth G.; Marhold G. (1983) In Asmussen E. Jagenssen K. Biomechanics VI B. Dowling J.J.; Vamos L. (1 9933 J. Applied. Biornech. 9, 95-110

Feeding-elicited cataplexy in orexin knockout mice

Mice lacking orexin/hypocretin signaling have sudden episodes of atonia and paralysis during active wakefulness. These events strongly resemble cataplexy, episodes of sudden muscle weakness triggered by strong positive emotions in people with narcolepsy, but it remains unknown whether murine cataplexy is triggered by positive emotions. To determine whether positive emotions elicit murine cataplexy, we placed orexin knockout (KO) mice on a scheduled feeding protocol with regular or highly palatable food. Baseline sleep/wake behavior was recorded with ad libitum regular chow. Mice were then placed on a scheduled feeding protocol in which they received 60% of their normal amount of chow 3 h after dark onset for the next 10 days. Wild-type and KO mice rapidly entrained to scheduled feeding with regular chow, with more wake and locomotor activity prior to the feeding time. On day 10 of scheduled feeding, orexin KO mice had slightly more cataplexy during the food-anticipation period and more cataplexy in the second half of the dark period, when they may have been foraging for residual food. To test whether more palatable food increases cataplexy, mice were then switched to scheduled feeding with an isocaloric amount of Froot Loops, a food often used as a reward in behavioral studies. With this highly palatable food, orexin KO mice had much more cataplexy during the food-anticipation period and throughout the dark period. The increase in cataplexy with scheduled feeding, especially with highly palatable food, suggests that positive emotions may trigger cataplexy in mice, just as in people with narcolepsy. Establishing this connection helps validate orexin KO mice as an excellent model of human narcolepsy and provides an opportunity to better understand the mechanisms that trigger cataplexy