577 research outputs found
Strategic mating effort in a simultaneous hermaphrodite : the role of the partner's feeding status
Sexual selection theory for simultaneously hermaphroditic animals predicts an overall preference for inseminating partners that have a relatively higher female fecundity. Previous work on the link between male mating decisions and female fecundity has primarily focused on the effect of the partners’ body size using existing variation in this trait within a study population. On the assumption that the body size is positively correlated with female fecundity, sperm donors should preferentially inseminate relatively larger individuals to obtain a higher fitness gain through their male sex function. However, empirical evidence for such size-dependent mate choice in simultaneous hermaphrodites is equivocal, possibly because of confounding variables. We studied the mating behavior of the simultaneously hermaphroditic flatworm Macrostomum lignano and tested for a strategic mating effort in response to the feeding status of the partner. We experimentally manipulated the feeding status of potential mating partners in order to generate variation in female fecundity among them and tested whether this affected the copulation number and the number of sperm that the focal worm managed to store in the partner’s sperm storage organ. We found that the manipulation of the feeding status had a strong effect on the body size of the potential mating partners and that focal worms copulated more frequently with, and stored more sperm in well-fed partners compared to unfed partners. Our results suggest that M. lignano adjusts its mating effort in response to the feeding status of the mating partner
Loading of a Bose-Einstein condensate in the boson-accumulation regime
We study the optical loading of a trapped Bose-Einstein condensate by
spontaneous emission of atoms in excited electronic state in the
Boson-Accumulation Regime. We generalize the previous simplified analysis of
ref. [Phys. Rev. A 53, 2466 (1996)], to a 3D case in which more than one trap
level of the excited state trap is considered. By solving the corresponding
quantum many-body master equation, we demonstrate that also for this general
situation the photon reabsorption can help to increase the condensate fraction.
Such effect could be employed to realize a continuous atom laser, and to
overcome condensate losses.Comment: 7 pages, 5 eps figures, uses epl.st
Continuous optical loading of a Bose-Einstein Condensate in the Thomas-Fermi regime
We discuss the optical loading of a Bose-Einstein condensate in the
Thomas-Fermi regime. The condensate is loaded via spontaneous emission from a
reservoir of excited-state atoms. By means of a master equation formalism, we
discuss the modification of the condensate temperature during the loading. We
identify the threshold temperature, , above (below) which the loading
process leads to cooling (heating), respectively. The consequences of our
analysis for the continuous loading of an atom laser are discussed.Comment: 7 pages, 3 figure
Continuous optical loading of a Bose-Einstein Condensate
The continuous pumping of atoms into a Bose-Einstein condensate via
spontaneous emission from a thermal reservoir is analyzed. We consider the case
of atoms with a three-level scheme, in which one of the atomic
transitions has a very much shorter life-time than the other one. We found that
in such scenario the photon reabsorption in dense clouds can be considered
negligible. If in addition inelastic processes can be neglected, we find that
optical pumping can be used to continuously load and refill Bose-Einstein
condensates, i.e. provides a possible way to achieve a continuous atom laser.Comment: 12 pages, 8 figure
Sperm competition-induced plasticity in the speed of spermatogenesis
Background: Sperm competition between rival ejaculates over the fertilization of ova typically selects for the production of large numbers of sperm. An obvious way to increase sperm production is to increase testis size, and most empirical work has focussed on this parameter. Adaptive plasticity in sperm production rate could also arise due to variation in the speed with which each spermatozoon is produced, but whether animals can respond to relevant environmental conditions by modulating the kinetics of spermatogenesis in this way has not been experimentally investigated. Results: Here we demonstrate that the simultaneously hermaphroditic flatworm Macrostomum lignano exhibits substantial plasticity in the speed of spermatogenesis, depending on the social context: worms raised under higher levels of sperm competition produce sperm faster. Conclusions: Our findings overturn the prevailing view that the speed of spermatogenesis is a static property of a genotype, and demonstrate the profound impact that social environmental conditions can exert upon a key developmental process. We thus identify, to our knowledge, a novel mechanism through which sperm production rate is maximised under sperm competition
Exploring the role of work identity and work locus of control in information security awareness
A growing body of research evidence has been focused on exploring aspects of individual differences in the context of human factors and adherence to organisational information security. The present study aimed to extend this research by exploring three individual variables related directly to the individual's perceived control within the workplace, their commitment to current work identity, and the extent to which they are reconsidering commitment to work. A total 1003 participants aged between 18–65 (Mean = 40.29; SD = 12.28), who were in full or part-time employment took part in the study. The results demonstrated that work locus of control acted as a significant predictor for total scores on a measure of information security awareness. Those individuals who demonstrated more externality had weaker engagement in accepted information security within the workplace. The findings from the current study are discussed in the context of potential links to counterproductive work behaviours, as well as presenting possible practical routes for intervention strategies to help mitigate poor engagement in information security awareness
High resolution amplitude and phase gratings in atom optics
An atom-field geometry is chosen in which an atomic beam traverses a field
interaction zone consisting of three fields, one having frequency propagating in the direction and the other two having
frequencies and propagating in the
- direction. For and , where and are positive integers and
is the pulse duration in the atomic rest frame, the atom-field interaction
results in the creation of atom amplitude and phase gratings having period . In this manner, one can use optical fields having
wavelength to produce atom gratings having periodicity much less
than .Comment: 11 pages, 14 figure
Re(Casting) Call: Sculpting Services & Strategies for Cultivating Online Scholarly Identity
Scholarly Identity (SI) encompasses scholars’ efforts to promote their reputation and impact (Brigham 2016) using digital tools and social networking sites (SNS) (e.g., ORCID). The need to cultivate an academic SNS presence is pressing, particularly for individuals who are in tenure-track positions, working towards promotion, etc. Managing SI is complex, and disciplinary standards differ for selecting SNS and establishing impact measurements. This panel provides diverse perspectives from academic librarians and researchers to address: a) How should/could academic librarians assist users who wish to build their SI? b) What services are currently offered? c) What opportunities, as well as concerns, surround SI work? The library and information science (LIS) literature has shed some light on academic libraries’ SI assistance (Ward et al. 2015). Reed et al. (2016) assert that academic libraries can build support services to help users craft and manage their SI. Academic librarians also use SNS to promote their own work (Brigham, 2016)
Bichromatic atomic lens
We investigate the focusing of three-level atoms with a bichromatic standing wave laser field, using both classical and quantum treatments of the problem. We find that, for the appropriate ratio of detunings to Rabi frequencies, the atoms will experience a periodic potential which is close to harmonic across half an optical wavelength. The field thus becomes equivalent to a periodic array of microlenses, which could be utilized to deposit lines of atoms upon a substrate. We consider and compare two regimes, differentiated by the interaction time of the atoms in the optical field. The first case considered, the Raman-Nath regime, is analogous to the thin lens regime in classical optics. The second case treats the transverse atomic motion within the light field, and investigates the distribution of atoms upon a substrate placed within the field. We investigate the extent to which this case can be modeled classically
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