47,092 research outputs found
Integrated circuit random-access memory decoder
Decoder circuit with complementary-symmetry circuit configuration composed of MOS and n-p-n bipolar devices minimizes power consumption. Emitter-follower drive scheme results in low power dissipation and high speed operation
Low-power integrated-circuit driver for ferrite-memory word lines
Composite circuit uses both n-p-n bipolar and p-channel MOS transistors /BIMOS/. The BIMOS driver provides 1/ ease of integrated circuit construction, 2/ low standby power consumption, 3/ bidirectional current pulses, and 4/ current-pulse amplitudes and rise times independent of active device parameters
Equation of state from lattice QCD
Recent results on the equation of state from lattice QCD are reviewed. The
lattice technique and previous results are shortly discussed. New results for
physical quark masses and two sets of lattice spacings are presented. The
pressure, energy density, entropy density, speed of sound and quark number
susceptibilities are determined.Comment: 10 pages, 11figures. Plenary talk presented at the Quark Matter 2005
conferenc
Notes on Certain (0,2) Correlation Functions
In this paper we shall describe some correlation function computations in
perturbative heterotic strings that, for example, in certain circumstances can
lend themselves to a heterotic generalization of quantum cohomology
calculations. Ordinary quantum chiral rings reflect worldsheet instanton
corrections to correlation functions involving products of Dolbeault cohomology
groups on the target space. The heterotic generalization described here
involves computing worldsheet instanton corrections to correlation functions
defined by products of elements of sheaf cohomology groups. One must not only
compactify moduli spaces of rational curves, but also extend a sheaf
(determined by the gauge bundle) over the compactification, and linear sigma
models provide natural mechanisms for doing both. Euler classes of obstruction
bundles generalize to this language in an interesting way.Comment: 51 pages, LaTeX; v2: typos fixed; v3: more typos fixe
Finite temperature and chemical potential in lattice QCD and its critical point
We propose a method to study lattice QCD at finite temperature (T) and
chemical potential (\mu). We compare the method with direct results and with
the Glasgow method by using n_f=4 QCD at Im(\mu)\neq0. We locate the critical
endpoint (E) of QCD on the Re(\mu)-T plane. We use n_f=2+1 dynamical staggered
quarks with semi-realistic masses on L_t=4 lattices. Our results are based on
{\cal{O}}(10^3-10^4) configurations.Comment: 8 pages, 4 figures. Talk given at the XXX. Hirschegg Workshop on
Ultrarelativistic Heavy-Ion Collisions, January 13-19, 200
Lattice QCD results at finite T and \mu
We propose a method to study lattice QCD at finite temperature (T) and
chemical potential (\mu). We test the method and compare it with the Glasgow
method using n_f=4 staggered QCD with imaginary \mu. The critical endpoint (E)
of QCD on the Re(\mu)-T plane is located. We use n_f=2+1 dynamical staggered
quarks with semi-realistic masses on L_t=4 lattices. Our results are based on
{\cal{O}}(10^3-10^4) configurations.Comment: 9 pages, 4 figures. Talk given at Budapest'02 Workshop on Quark and
Hadron Dynamics, Budapest, March 3-7, 200
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