5,129 research outputs found
Anomalous gauge couplings of the Higgs boson at the CERN LHC: Semileptonic mode in WW scatterings
We make a full tree level study of the signatures of anomalous gauge
couplings of the Higgs boson at the CERN LHC via the semileptonic decay mode in
WW scatterings. Both signals and backgrounds are studied at the hadron level
for the Higgs mass in the range 115 GeV to 200 GeV. We carefully impose
suitable kinematical cuts for suppressing the backgrounds. To the same
sensitivity as in the pure leptonic mode, our result shows that the
semileptonic mode can reduce the required integrated luminosity by a factor of
3. If the anomalous couplings in nature are actually larger than the
sensitivity bounds shown in the text, the experiment can start the test for an
integrated luminosity of 50 inverse fb.Comment: PACS numbers updated. Version published in Phys.Rev.D79,055010(2009
Spatially resolved pump-probe study of single-layer graphene produced by chemical vapor deposition
Carrier dynamics in single-layer graphene grown by chemical vapor deposition
(CVD) is studied using spatially and temporally resolved pump-probe
spectroscopy by measuring both differential transmission and differential
reflection. By studying the expansion of a Gaussian spatial profile of carriers
excited by a 1500-nm pump pulse with a 1761-nm probe pulse, we observe a
diffusion of hot carriers of 5500 square centimeter per second. We also observe
that the expansion of the carrier density profile decreases to a slow rate
within 1 ps, which is unexpected. Furthermore, by using an 810-nm probe pulse
we observe that both the differential transmission and reflection change signs,
but also that this sign change can be permanently removed by exposure of the
graphene to femtosecond laser pulses of relatively high fluence. This indicates
that the differential transmission and reflection at later times may not be
directly caused by carriers, but may be from some residue material from the
sample fabrication or transfer process.Comment: 9 pages, 3 figure
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