1,404 research outputs found
An iterative method for extreme optics of two-level systems
We formulate the problem of a two-level system in a linearly polarized laser
field in terms of a nonlinear Riccati-type differential equation and solve the
equation analytically in time intervals much shorter than half the optical
period. The analytical solutions for subsequent intervals are then stuck
together in an iterative procedure to cover the scale time of the laser pulse.
This approach is applicable to pulses of arbitrary (nonrelativistic) strengths,
shapes and durations, thus covering the whole region of light-matter couplings
from weak through moderate to strong ones. The method allows quick insight into
different problems from the field of light--matter interaction. Very good
quality of the method is shown by recovering with it a number of subtle effects
met in earlier numerically calculated photon-emission spectra from model
molecular ions, double quantum wells, atoms and semiconductors. The method
presented is an efficient mathematical tool to describe novel effects in the
region of, e.g., extreme nonlinear optics, i.e., when two--level systems are
exposed to pulses of only a few cycles in duration and strength ensuring the
Rabi frequency to approach and even exceed the laser light frequence
Structural and mechanistic diversity of secondary transporters
Recent reports on the three-dimensional structure of secondary transporters have dramatically increased our knowledge of the translocation mechanism of ions and solutes. The structures of five transporters at atomic resolution have yielded four different folds and as many different translocation mechanisms. The structure of the glutamate transporter homologue Glt(Ph) confirmed the role of pore-loop structures as essential parts of the translocation mechanism in one family of secondary transporters. Biochemical evidence for pore-loop structures in several other families suggest that they might be common in secondary transporters, adding to the structural and mechanistic diversity of secondary transporters
Mechanisms of memory retrieval in slow-wave sleep : memory retrieval in slow-wave sleep
Study Objectives: Memories are strengthened during sleep. The benefits of sleep for memory can be enhanced by re-exposing the sleeping brain to auditory cues; a technique known as targeted memory reactivation (TMR). Prior studies have not assessed the nature of the retrieval mechanisms underpinning TMR: the matching process between auditory stimuli encountered during sleep and previously encoded memories. We carried out two experiments to address this issue. Methods: In Experiment 1, participants associated words with verbal and non-verbal auditory stimuli before an overnight interval in which subsets of these stimuli were replayed in slow-wave sleep. We repeated this paradigm in Experiment 2 with the single difference that the gender of the verbal auditory stimuli was switched between learning and sleep. Results: In Experiment 1, forgetting of cued (vs. non-cued) associations was reduced by TMR with verbal and non-verbal cues to similar extents. In Experiment 2, TMR with identical non-verbal cues reduced forgetting of cued (vs. non-cued) associations, replicating Experiment 1. However, TMR with non-identical verbal cues reduced forgetting of both cued and non-cued associations. Conclusions: These experiments suggest that the memory effects of TMR are influenced by the acoustic overlap between stimuli delivered at training and sleep. Our findings hint at the existence of two processing routes for memory retrieval during sleep. Whereas TMR with acoustically identical cues may reactivate individual associations via simple episodic matching, TMR with non-identical verbal cues may utilise linguistic decoding mechanisms, resulting in widespread reactivation across a broad category of memories
The benefits of targeted memory reactivation for consolidation in sleep are contingent on memory accuracy and direct cue-memory associations
Objectives: To investigate how the effects of targeted memory reactivation (TMR) are influenced by memory accuracy prior to sleep and the presence or absence of direct cue-memory associations. Methods: 30 participants associated each of 50 pictures with an unrelated word and then with a screen location in two separate tasks. During picture-location training, each picture was also presented with a semantically related sound. The sounds were therefore directly associated with the picture locations but indirectly associated with the words. During a subsequent nap, half of the sounds were replayed in slow wave sleep (SWS) (TMR). The effect of TMR on memory for the picture locations (direct cue-memory associations) and picture-word pairs (indirect cue-memory associations) was then examined. Results: TMR reduced overall memory decay for recall of picture locations. Further analyses revealed a benefit of TMR for picture locations recalled with a low degree of accuracy prior to sleep, but not those recalled with a high degree of accuracy. The benefit of TMR for low accuracy memories was predicted by time spent in SWS. There was no benefit of TMR for memory of the picture-word pairs, irrespective of memory accuracy prior to sleep. Conclusions: TMR provides the greatest benefit to memories recalled with a low degree of accuracy prior to sleep. The memory benefits of TMR may also be contingent on direct cue-memory associations
Superconductivity in the Nb-Ru-Ge -Phase
We show that the previously unreported ternary -phase material
NbRuGe is a superconductor with a critical temperature
of 2.2 K. Temperature-dependent magnetic susceptibility, resistance, and
specific heat measurements were used to characterize the superconducting
transition. The Sommerfeld constant for
NbRuGe is 91 mJ mol-f.u.K and the
specific heat anomaly at the superconducting transition,
C/T, is approximately 1.38. The zero-temperature upper
critical field (H(0)) was estimated to be 2 T by resistance data.
Field-dependent magnetization data analysis estimated H(0) to be
5.5 mT. Thus, the characterization shows NbRuGe to be
a type II BCS superconductor. This material appears to be the first reported
ternary phase in the Nb-Ru-Ge system, and the fact that there are no previously
reported binary Nb-Ru, Nb-Ge, or Ru-Ge -phases shows that all three
elements are necessary to stabilize the material. A -phase in the
Ta-Ru-Ge system was synthesized but did not display superconductivity above 1.7
K, which suggests that electron count cannot govern the superconductivity
observed. Preliminary characterization of a possible superconducting
-phase in the Nb-Ru-Ga system is also reported.Comment: 7 pages, 8 figures, 3 table
First record of epicadus trituberculatus (Taczanowski, 1872) (araneae, thomisidae, stephanopinae) in the Brazilian Northeast
We present the first record of Epicadus trituberculatus (Taczanowski, 1872) from the Northeast Region of Brazil. The new record is based on six specimens observed in two areas of montane semi-deciduous tropical forest located in two municipalities: Guaramiranga and Pacatuba, Ceará state, Brazil. Of the six specimens observed we collected manually only three to preserve as voucher material. In Brazil, E. trituberculatus has a wide distribution range, which extends from the Atlantic Forest, Amazon, and Cerrado biomes and the Pampa ecoregion. With the new record there are currently six known species of Epicadus in northeastern Brazil155937940CONSELHO NACIONAL DE DESENVOLVIMENTO CIENTÍFICO E TECNOLÓGICO - CNPQCOORDENAÇÃO DE APERFEIÇOAMENTO DE PESSOAL DE NÍVEL SUPERIOR - CAPESFUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO - FAPESPnão temnão temnão temThis study was financed in part by the Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - Brasil(CAPES), Finance Code 001 (G.A. Villanueva-Bonilla). We were also financially supported by the Instituto Nacional de Ciência e Tecnologia dos Hymenoptera Para-sitoides (HYMPAR/Sudeste – CNPq/FAPESP/CAPES), and FUNCAP– BPI proc. BP3- 00139-00186.01.00/18 (research grants to J.F. Sobczak
Challenging the Glass Ceiling: Collaboration as the Key to Increasing the Number of Librarians of Color in Academic Libraries
Currently, libraries are engaged in creating environments that embrace diversity, equity and inclusion (DEI). This includes having candidates for hire submit statements regarding their approach to DEI and internal committees to look at policies and procedures regarding DEI. Also there is a lot of both internal and external training designed to help organizations and their members become more adept at creating environments with DEI in mind. What is often missed in all of this activity is how individual librarians, through mentorship and collaboration, can come together to foster DEI and support each other in success. This field report shows how two librarians, from different backgrounds and experiences came together to not only support each other through their regular work day, but elevate their partnership toward professional success and retention. The report provides recommendations for creating a more inclusive workplace through mentoring and collaboration
Diagnostic and Monitoring CERN Accelerator Controls Infrastructure : The DIAMON Project First Deployment in Operation
The CERN accelerator controls infrastructure spans over several machines and several thousands of devices are used to collect and transmit piece of control data. Each of these remote devices might fail and therefore prevent correct operation. A complete diagnostic and monitoring infrastructure has been developed in order to provide Operation crews with complete and easy to use graphical interface presenting the state of the controls system. Simple agents running in each surveyed item periodically report monitoring information to a central server. Graphical JAVA clients in the operation centers subscribe to this monitoring data and display a view of the current state of the machines. Mouse actions from these clients allows for diagnostic commands to be sent to the agent to get additional details or to repair a faulty situation. This presentation will describe the overall architecture of DIAMON, present the different agents running in the controls system and a few views of the graphical clients. The outcome of the first months in operation of the DIAMON tools will also be presented. Finally, the future plans will be exposed
Tracing the power-law component in the energy spectrum of black hole candidates as a function of the QPO frequency
We investigated the relation between the centroid frequency of the
quasi-periodic oscillation observed in the power density spectra of a sample of
galactic black-hole candidates with the power-law photon index obtained from
spectral fits. Our aim is to avoid inner accretion disk radius determination
directly from spectral fits, given the uncertainties of the absolute values
obtained in that way, but to base our analysis on the likely association of QPO
frequency to a characteristic radius. We used archival RXTE data of GRS
1915+105 and published parameters for GRO 1655-40, XTE J1550-564, XTE J1748-288
and 4U 1630-47. While for low values of the QPO frequency, the two parameters
are clearly correlated for each source, there is evidence for a turnoff in the
correlation above a characteristic frequency, different for different sources.
We discuss the possible nature of this turnoff.Comment: 11 pages, 10 figures. Accepted for publication on Astronomy &
Astrophysic
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