2,944 research outputs found
N=1 supersymmetric path-integral Poisson-Lie duality
We extend the path-integral formulation of Poisson-Lie duality found by
Tyurin and von Unge to N=1 supersymmetric sigma-models. Using an explicit
representation of the generators of the Drinfel'd double corresponding to
GxU(1)^dimG we discuss an application to non-abelian duality. The paper also
contains the relevant background and some comments on Poisson-Lie duality.Comment: 23 pages,latex2e,no figures;v2:minor corrections;v3:misprints
corrected,final versio
World-Volume Locally Supersymmetric Born-Infeld Actions
We derive manifestly locally supersymmetric extensions of the Born-Infeld
action with . The construction is based on a first order bosonic action
for -branes with a generalized Weyl invariance.Comment: LaTeX, 14 pages, typos corrected, references and some remarks adde
Properties of a radiation-induced charge multiplication region in epitaxial silicon diodes
Charge multiplication (CM) in pn epitaxial silicon pad diodes of 75, 100
and 150 \upmum thickness at high voltages after proton irradiation with 1 MeV
neutron equivalent fluences in the order of cm was studied as
an option to overcome the strong trapping of charge carriers in the innermost
tracking region of future Super-LHC detectors. Charge collection efficiency
(CCE) measurements using the Transient Current Technique (TCT) with radiation
of different penetration (670, 830, 1060 nm laser light and -particles
with optional absorbers) were used to locate the CM region close to the
p-implantation. The dependence of CM on material, thickness of the
epitaxial layer, annealing and temperature was studied. The collected charge in
the CM regime was found to be proportional to the deposited charge, uniform
over the diode area and stable over a period of several days. Randomly
occurring micro discharges at high voltages turned out to be the largest
challenge for operation of the diodes in the CM regime. Although at high
voltages an increase of the TCT baseline noise was observed, the
signal-to-noise ratio was found to improve due to CM for laser light. Possible
effects on the charge spectra measured with laser light due to statistical
fluctuations in the CM process were not observed. In contrast, the relative
width of the spectra increased in the case of -particles, probably due
to varying charge deposited in the CM region.Comment: 11 pages, accepted by NIM
Analysis of high quality superconducting resonators: consequences for TLS properties in amorphous oxides
noise caused by microscopic Two-Level Systems (TLS) is known to be very
detrimental to the performance of superconducting quantum devices but the
nature of these TLS is still poorly understood. Recent experiments with
superconducting resonators indicates that interaction between TLS in the oxide
at the film-substrate interface is not negligible. Here we present data on the
loss and frequency noise from two different Nb resonators with and
without Pt capping and discuss what conclusions can be drawn regarding the
properties of TLS in amorphous oxides. We also estimate the concentration and
dipole moment of the TLS.Comment: 8 pages, 5 figure
Effects of quasiparticle tunneling in a circuit-QED realization of a strongly driven two-level system
We experimentally and theoretically study the frequency shift of a driven
cavity coupled to a superconducting charge qubit. In addition to previous
studies, we here also consider drive strengths large enough to energetically
allow for quasiparticle creation. Quasiparticle tunneling leads to the
inclusion of more than two charge states in the dynamics. To explain the
observed effects, we develop a master equation for the microwave dressed charge
states, including quasiparticle tunneling. A bimodal behavior of the frequency
shift as a function of gate voltage can be used for sensitive charge detection.
However, at weak drives the charge sensitivity is significantly reduced by
non-equilibrium quasiparticles, which induce transitions to a non-sensitive
state. Unexpectedly, at high enough drives, quasiparticle tunneling enables a
very fast relaxation channel to the sensitive state. In this regime, the charge
sensitivity is thus robust against externally injected quasiparticles and the
desired dynamics prevail over a broad range of temperatures. We find very good
agreement between theory and experiment over a wide range of drive strengths
and temperatures.Comment: 25 pages, 7 figure
Design and Tests of the Silicon Sensors for the ZEUS Micro Vertex Detector
To fully exploit the HERA-II upgrade,the ZEUS experiment has installed a
Micro Vertex Detector (MVD) using n-type, single-sided, silicon micro-strip
sensors with capacitive charge division. The sensors have a readout pitch of
120 micrometers, with five intermediate strips (20 micrometer strip pitch). The
designs of the silicon sensors and of the test structures used to verify the
technological parameters, are presented. Results on the electrical measurements
are discussed. A total of 1123 sensors with three different geometries have
been produced by Hamamatsu Photonics K.K. Irradiation tests with reactor
neutrons and Co-60 photons have been performed for a small sample of sensors.
The results on neutron irradiation (with a fluence of 1 x 10^{13} 1 MeV
equivalent neutrons / cm^2) are well described by empirical formulae for bulk
damage. The Co-60 photons (with doses up to 2.9 kGy) show the presence of
generation currents in the SiO_2-Si interface, a large shift of the flatband
voltage and a decrease of the hole mobility.Comment: 33 pages, 25 figures, 3 tables, accepted for publication in NIM
Near-Field Scanning Microwave Microscopy in the Single Photon Regime
The microwave properties of nano-scale structures are important in a wide
variety of applications in quantum technology. Here we describe a low-power
cryogenic near-field scanning microwave microscope (NSMM) which maintains
nano-scale dielectric contrast down to the single microwave photon regime, up
to times lower power than in typical NSMMs. We discuss the remaining
challenges towards developing nano-scale NSMM for quantum coherent interaction
with two-level systems as an enabling tool for the development of quantum
technologies in the microwave regime
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