18,502 research outputs found
Incoherent Mollow triplet
A counterpart of the Mollow triplet (luminescence lineshape of a two-level
system under coherent excitation) is obtained for the case of incoherent
excitation in a cavity. Its analytical expression, in excellent agreement with
numerical results, pinpoints analogies and differences between the conventional
resonance fluorescence spectrum and its cavity QED analogue under incoherent
excitation.Comment: 4 pages, 3 figure
Exact Limit of the Expected Periodogram in the Unit-Root case
We derive the limit of the expected periodogram in the unit-root case under general conditions. This function is seen to be independent of time, thus sharing a fundamental property with the stationary case equivalent. We discuss the consequences of this result to the frequency domain interpretation of filtered integrated time series.
A Multivariate Band-Pass Filter
We develop a multivariate filter which is an optimal (in the mean squared error sense) approximation to the ideal filter that isolates a specified range of fluctuations in a time series, e.g., business cycle fluctuations in macroeconomic time series. This requires knowledge of the true second-order moments of the data. Otherwise these can be estimated and we show empirically that the method still leads to relevant improvements of the extracted signal, especially in the endpoints of the sample. Our filter is an extension of the univariate filter developed by Christiano and Fitzgerald (2003). Specifically, we allow an arbitrary number of covariates to be employed in the estimation of the signal. We illustrate the application of the filter by constructing a business cycle indicator for the U.S. economy. The filter can additionally be used in any similar signal extraction problem demanding accurate real-time estimates.
Exact Limit of the Expected Periodogram in the Unit-Root Case
We derive the limit of the expected periodogram in the unit-root case under general conditions. This function is seen to be time-independent, thus sharing a fundamental property with the stationary case equivalent. We discuss the consequences of this result to the frequency domain interpretation of filtered integrated time series.Periodogram, Unit root
A Multivariate Band-Pass Filter
We develop a multivariate filter which is an optimal (in the mean squared error sense) approximation to the ideal filter that isolates a specified range of fluctuations in a time series, e.g., business cycle fluctuations in macroeconomic time series. This requires knowledge of the true second-order moments of the data. Otherwise these can be estimated and we show empirically that the method still leads to relevant improvements of the extracted signal, especially in the endpoints of the sample. Our filter is an extension of the univariate filter developed by Christiano and Fitzgerald (2003). Specifically, we allow an arbitrary number of covariates to be employed in the estimation of the signal.
We illustrate the application of the filter by constructing a business cycle indicator for the U.S. economy. The filter can additionally be used in any similar signal extraction problem demanding accurate real-time estimates.
Non-thermal processes in bowshocks of runaway stars. Application to Zeta Oph
Runaway massive stars are O- and B-type stars with high spatial velocities
with respect to the interstellar medium. These stars can produce bowshocks in
the surrounding gas. Bowshocks develop as arc-shaped structures, with bows
pointing to the same direction as the stellar velocity, while the star moves
supersonically through the interstellar gas. The piled-up shocked matter emits
thermal radiation and a population of locally accelerated relativistic
particles is expected to produce non-thermal emission over a wide range of
energies. We aim to model the non-thermal radiation produced in these sources.
Under some assumptions, we computed the non-thermal emission produced by the
relativistic particles and the thermal radiation caused by free-free
interactions, for O4I and O9I stars. We applied our model to Zeta Oph (HD
149757), an intensively studied massive star seen from the northern hemisphere.
This star has spectral type O9.5V and is a well-known runaway. Spectral energy
distributions of massive runaways are predicted for the whole electromagnetic
spectrum. We conclude that the non-thermal radiation might be detectable at
various energy bands for relatively nearby runaway stars, especially at
high-energy gamma rays. Inverse Compton scattering with photons from the heated
dust gives the most important contribution to the high-energy spectrum. This
emission approaches Fermi sensitivities in the case of Zeta Oph.Comment: 11 pages, 11 figures.- Accepted for publication in A&A
Runaway massive stars as variable gamma-ray sources
Runaway stars are ejected from their formation sites well within molecular
cores in giant dark clouds. Eventually, these stars can travel through the
molecular clouds, which are highly inhomogeneous. The powerful winds of massive
runaway stars interact with the medium forming bowshocks. Recent observations
and theoretical modelling suggest that these bowshocks emit non-thermal
radiation. As the massive stars move through the inhomogeneous ambient gas the
physical properties of the bowshocks are modified, producing changes in the
non-thermal emission. We aim to compute the non-thermal radiation produced in
the bowshocks of runaway massive stars when travelling through a molecular
cloud. We calculate the non-thermal emission and absorption for two types of
massive runaway stars, an O9I and an O4I, as they move through a density
gradient. We present the spectral energy distributions for the runaway stars
modelled. Additionally, we obtain light curves at different energy ranges. We
find significant variations in the emission over timescales of 1 yr. We
conclude that bowshocks of massive runaway stars, under some assumptions, might
be variable gamma-ray sources, with variability timescales that depend on the
medium density profile. These objects might constitute a population of galactic
gamma-ray sources turning on and off within years.Comment: 10 pages, 13 figures, accepted for publication in Astronomy &
Astrophysic
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