88 research outputs found
Noise in laser speckle correlation and imaging techniques
We study the noise of the intensity variance and of the intensity correlation
and structure functions measured in light scattering from a random medium in
the case when these quantities are obtained by averaging over a finite number N
of pixels of a digital camera. We show that the noise scales as 1/N in all
cases and that it is sensitive to correlations of signals corresponding to
adjacent pixels as well as to the effective time averaging (due to the finite
sampling time) and spatial averaging (due to the finite pixel size). Our
results provide a guide to estimation of noise level in such applications as
the multi-speckle dynamic light scattering, time-resolved correlation
spectroscopy, speckle visibility spectroscopy, laser speckle imaging etc.Comment: submitted 14 May 201
Collective effects in spin-crossover chains with exchange interaction
The collective properties of spin-crossover chains are studied.
Spin-crossover compounds contain ions with a low-spin ground state and low
lying high-spin excited states and are of interest for molecular memory
applications. Some of them naturally form one-dimensional chains. Elastic
interaction and Ising exchange interaction are taken into account. The
transfer-matrix approach is used to calculate the partition function, the
fraction of ions in the high-spin state, the magnetization, susceptibility,
etc., exactly. The high-spin-low-spin degree of freedom leads to collective
effects not present in simple spin chains. The ground-state phase diagram is
mapped out and compared to the case with Heisenberg exchange interaction. The
various phases give rise to characteristic behavior at nonzero temperatures,
including sharp crossovers between low- and high-temperature regimes. A
Curie-Weiss law for the susceptibility is derived and the paramagnetic Curie
temperature is calculated. Possible experiments to determine the exchange
coupling are discussed.Comment: 9 pages, 13 color figures, published versio
Amp(1q) and tetraploidy are commonly acquired chromosomal abnormalities in relapsed multiple myeloma.
Long-term disease control in multiple myeloma (MM) is typically an unmet medical need, and most patients experience multiple relapses. Fluorescence in situ hybridization (FISH) is the standard technique to detect chromosomal abnormalities (CAs), which are important to estimate the prognosis of MM and the allocation of risk adapted therapies. In advanced stages, the importance of CAs needs further investigation. From 148 MM patients, two or more paired samples, at least one of which was collected at relapse, were analyzed by FISH. Using targeted next-generation sequencing, we molecularly investigated samples harboring relapse-associated CAs. Sixty-one percent of the patients showed a change in the cytogenetic profile during the disease course, including 10% who acquired high-risk cytogenetics. Amp(1q) (≥4 copies of 1q21), driven by an additional increase in copy number in patients who already had 3 copies of 1q21, was the most common acquired CA with 16% affected patients. Tetraploidy, found in 10% of the samples collected at the last time-point, was unstable over the course of the disease and was associated with TP53 lesions. Our results indicate that cytogenetic progression is common in relapsed patients. The relatively high frequency of amp(1q) suggests an active role for this CA in disease progression
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