54,647 research outputs found
The Role of Tacit Routines in Coordinating Activity
We explore the influence of tacit routines in obtaining coordination. Our experiment uses simple
laboratory "firms," in which we interfere with one kind of firm's ability to develop tacit routines.
Thus, our firms vary in the degree to which they rely on this kind of knowledge â instead of
other, explicit, mechanisms â for obtaining coordination. We find that interfering with the
development of tacit routines harms firmsâ ability to coordinate. We then explore the extent to
which firms are able to transfer their ability to coordinate activity, either to a new domain or to
new members. Our results indicate that tacit routines transfer more easily than other
mechanisms to a new, but closely related, domain. However, routine-based firms perform
slightly worse in their ability to incorporate new members
Timing and Virtual Observability in Ultimatum Bargaining and "Weak Link" Coordination Games
Previous studies have shown that simply knowing one player moves first can affect behavior in games, even when the first-mover's moves are known to be unobservable. This observation violates the game-theoretic principle that timing of unobserved moves is irrelevant, but is consistent with virtual observability, a theory of how timing can matter without the ability to observe actions. However, this previous research only shows that timing matters in games where knowledge that one player moved first can help select that player's preferred equilibrium, presenting an alternative explanation to virtual observability. We extend this work by varying timing of unobservable moves in ultimatum bargaining games and âweak linkâ coordination games. In the latter, the equilibrium selection explanation does not predict any change in behavior due to timing differences. We find that timing without observability affects behavior in both games, but not substantially
Integral representations combining ladders and crossed-ladders
We use the worldline formalism to derive integral representations for three
classes of amplitudes in scalar field theory: (i) the scalar propagator
exchanging N momenta with a scalar background field (ii) the "half-ladder" with
N rungs in x - space (iii) the four-point ladder with N rungs in x - space as
well as in (off-shell) momentum space. In each case we give a compact
expression combining the N! Feynman diagrams contributing to the amplitude. As
our main application, we reconsider the well-known case of two massive scalars
interacting through the exchange of a massless scalar. Applying asymptotic
estimates and a saddle-point approximation to the N-rung ladder plus crossed
ladder diagrams, we derive a semi-analytic approximation formula for the lowest
bound state mass in this model.Comment: 39 pages, 10 pdf figure
Quark deconfinement in high-mass neutron stars
In this paper, we explore whether or not quark deconfinement may occur in
high-mass neutron stars such as J1614-2230 (1.97 \pm 0.04 M_Sun) and J0348+0432
(2.01 \pm 0.04 M_Sun). Our study is based on a non-local extension of the SU(3)
Nambu Jona-Lasinio (n3NJL) model with repulsive vector interactions among the
quarks. This model goes beyond the frequently used local version of the Nambu
Jona-Lasinio (NJL) model by accounting for several key features of QCD which
are not part of the local model. Confined hadronic matter is treated in the
framework of non-linear relativistic mean field theory. We find that both the
local as well as the non-local NJL model predict the existence of extended
regions of mixed quark-hadron (quark-hybrid) matter in high-mass neutron stars
with masses of 2.1 to 2.4 M_Sun. Pure quark matter in the cores of neutron
stars is obtained for certain parametrizations of the hadronic lagrangian and
choices of the vector repulsion among quarks. The radii of high-mass neutron
stars with quark-hybrid matter and/or pure quark matter cores in their centers
are found to lie in the canonical range of 12 to 13 km.Comment: 31 pages, 17 figures, PRC accepted versio
Quark-hybrid matter in the cores of massive neutron stars
Using a nonlocal extension of the SU(3) Nambu-Jona Lasinio model, which
reproduces several of the key features of Quantum Chromodynamics, we show that
mixed phases of deconfined quarks and confined hadrons (quark-hybrid matter)
may exist in the cores of neutron stars as massive as around 2.1 M_Sun. The
radii of these objects are found to be in the canonical range of
km. According to our study, the transition to pure quark matter does not occur
in stable neutron stars, but is shifted to neutron stars which are unstable
against radial oscillations. The implications of our study for the recently
discovered, massive neutron star PSR J1614-2230, whose gravitational mass is
, are that this neutron star may contain an extended
region of quark-hybrid matter at it center, but no pure quark matter.Comment: 13 pages, 3 figure
Hot-carrier-induced deep-level defects from gated-diode measurements on MOSFETs
The reverse-bias current in the gated-diode configuration of hot-carrier degraded MOS devices was measured. It is shown that interface defects created by the degradation contribute predominantly to the generation current. The spatial distribution of the deep-level defects was obtained by means of device simulation
Pseudopregnancy In Dogs
The term pseudopregnancy was first used by Ancel and Bouin (1911) to describe an abnormally long luteal phase of the estrual cycle observed in the rabbit. Originally the term applied to the condition whereby, following copulation, no conception would take place, but that uterine and ovarian changes similar to those seen in pregnancy would ensue. It is now known that pseudopregnancy can occur in the virgin bitch following estrum when no copulation has taken place. It should be remembered that unlike the rabbit, ferret and other animals, the dog ovulates spontaneously, i.e., without the need of the copulation stimulus to cause the rupture of the follicle and consequent liberation of the ovum
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