7,903 research outputs found
Safety, the Preface Paradox and Possible Worlds Semantics
This paper contains an argument to the effect that possible worlds semantics renders
semantic knowledge impossible, no matter what ontological interpretation is given
to possible worlds. The essential contention made is that possible worlds semantic
knowledge is unsafe and this is shown by a parallel with the preface paradox
Seismic Analysis of Spinney Mountain Dam
The Spinney Mountain Dam, now under construction in central Colorado, is a zoned earth embankment with a maximum height of 95 feet above foundation. Detailed geological investigations revealed rejuvenated sediments of nearby older faults, which have undergone tectonic movement within the past 13,000 to 30,000 years and hence are considered capable. Studies indicate the largest earthquake expected on the controlling fault would have a Richter Magnitude of about 6.2, implying peak ground accelerations at the site of about 0.6g and a 15-second duration of strong motion. Displacement on a branch of the main capable fault during such an event is estimated at four to six inches. Slope deformation analyses estimate a movement at the crest of the dam of not more than two inches horizontally and considerably less vertically, which would not result in a significant decrease in strength of the compacted soils. Reservoir induced seismicity is not considered to be a hazard
Low Frequency Tilt Seismology with a Precision Ground Rotation Sensor
We describe measurements of the rotational component of teleseismic surface
waves using an inertial high-precision ground-rotation-sensor installed at the
LIGO Hanford Observatory (LHO). The sensor has a noise floor of 0.4 nrad at 50 mHz and a translational coupling of less than 1 rad/m
enabling translation-free measurement of small rotations. We present
observations of the rotational motion from Rayleigh waves of six teleseismic
events from varied locations and with magnitudes ranging from M6.7 to M7.9.
These events were used to estimate phase dispersion curves which shows
agreement with a similar analysis done with an array of three STS-2
seismometers also located at LHO
Rydberg trimers and excited dimers bound by internal quantum reflection
Quantum reflection is a pure wave phenomena that predicts reflection of a
particle at a changing potential for cases where complete transmission occurs
classically. For a chemical bond, we find that this effect can lead to
non-classical vibrational turning points and bound states at extremely large
interatomic distances. Only recently has the existence of such ultralong-range
Rydberg molecules been demonstrated experimentally. Here, we identify a broad
range of molecular lines, most of which are shown to originate from two
different novel sources: a single-photon associated triatomic molecule formed
by a Rydberg atom and two ground state atoms and a series of excited dimer
states that are bound by a so far unexplored mechanism based on internal
quantum reflection at a steep potential drop. The properties of the Rydberg
molecules identified in this work qualify them as prototypes for a new type of
chemistry at ultracold temperatures.Comment: 6 pages, 3 figures, 1 tabl
Weak-Coupling Theory of Pair Density-Wave Instabilities in Transition Metal Dichalcogenides
The possibility of realizing pair density wave (PDW) phases, in which Cooper
pairs have a finite momentum, presents an interesting challenge that has been
studied in a wide variety of systems. In conventional superconductors, this is
only possible when external fields lift the spin degeneracy of the Fermi
surface, leading to pair formation at an incommensurate momentum. Here, we
study a second possibility, potentially relevant to transition metal
dichalcogenides, in which the Fermi surface consists of a pair of pockets
centered at the points of the Brillouin zone as well as a central
pocket at the point. In the limit where these three pockets are
identical, the pairing susceptibility has a logarithmic divergence at the
non-zero wave-vectors , allowing for a weak-coupling analysis
of the PDW instability. We find that repulsive electronic interactions combine
to yield effective attractive interactions in the singlet and triplet PDW
channels, as long as the pocket is present. Because these PDW channels
decouple from the uniform superconducting channel, they can become the leading
unconventional pairing instability of the system. Upon solving the linearized
gap equations, we find that the PDW instability is robust against small
trigonal warping of the pockets and small detuning between the
and pockets, which affect the PDW transition in a similar way as the
Zeeman magnetic field affects the uniform superconducting transition. We also
derive the Ginzburg-Landau free energy for the PDW gaps with momenta , analyzing the conditions for and consequences of the emergence of
FF-type and LO-type PDW ground states. Our classification of the induced orders
in each ground state reveals unusual phases, including an odd-frequency
charge- superconductor in the LO-type PDW.Comment: 24 pages, 11 figure
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Slow liner fusion
{open_quotes}Slow{close_quotes} liner fusion ({approximately}10 ms compression time) implosions are nondestructive and make repetitive ({approximately} 1 Hz) pulsed liner fusion reactors possible. This paper summarizes a General Atomics physics-based fusion reactor study that showed slow liner feasibility, even with conservative open-line axial magnetic field confinement and Bohm radial transport
Irreversibility and Polymer Adsorption
Physisorption or chemisorption from dilute polymer solutions often entails
irreversible polymer-surface bonding. We present a theory of the
non-equilibrium layers which result. While the density profile and loop
distribution are the same as for equilibrium layers, the final layer comprises
a tightly bound inner part plus an outer part whose chains make only fN surface
contacts where N is chain length. The contact fractions f follow a broad
distribution, P(f) ~ f^{-4/5}, in rather close agreement with strong
physisorption experiments [H. M. Schneider et al, Langmuir v.12, p.994 (1996)].Comment: 4 pages, submitted to Phys. Rev. Let
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