549 research outputs found
Detection of Close-In Extrasolar Giant Planets Using the Fourier-Kelvin Stellar Interferometer
We evaluate the direct detection of extrasolar giant planets with a
two-aperture nulling infrared interferometer, working at angles
, and using a new `ratio-of-two-wavelengths' technique.
Simple arguments suggest that interferometric detection and characterization
should be quite possible for planets much closer than the conventional inner
working angle, or angular resolution limit. We show that the peak signal from a
nulling infrared interferometer of baseline ( meters) will often
occur `inside the null', and that the signal variations from path-difference
fluctuations will cancel to first order in the ratio of two wavelengths. Using
a new interferometer simulation code, we evaluate the detectability of all the
known extrasolar planets as observed using this two-color method with the
proposed {\it Fourier Kelvin Stellar Interferometer (FKSI)}. In its minimum
configuration {\it FKSI} uses two 0.5-meter apertures on a 12.5-meter baseline,
and a field-of-regard. We predict that known
extrasolar planets are directly detectable using {\it FKSI}, with
low-resolution spectroscopy () being possible in the most favorable
cases. Spaceborne direct detection of extrasolar giant planets is possible with
meter baselines, and does not require the much longer baselines
provided by formation flying.Comment: Accepted for publication in ApJ Letter
A Balancing-Process Approach to Firm Internationalization
Drawing on the resource-based view of the firm, this paper develops a balancing-process approach to explain the motivations and location choices of foreign direct investment (FDI). In this approach, FDI is viewed as a means to balance a firm's portfolio of resources and capabilities through utilizing foreign strategic factor markets with the ultimate goal of achieving growth and sustainable competitive advantage. This approach joins exploitative and explorative FDI in a single framework and helps explain why a firm can conduct both types of FDI simultaneously.
Recent astronomical results from the infrared spatial interferometer and their implications for LOUISA
A new heterodyne interferometer for the atmospheric window from 9 to 12 microns was developed during the past five years. This instrument, called the Infrared Spatial Interferometer (ISI), was designed to use earth rotation aperture synthesis techniques developed in radio interferometry. It was moved to Mt. Wilson, California, in January 1988 and first fringes were obtained in June of that year. Systematic observations of some of the brighter late-type stars began shortly after the first fringes were obtained. We describe the basic principles and design of the ISI and give an overview of some of the initial results obtained from these observations. The implications of our work to the proposed Lunar Optical/UV/IR Synthesis Array (LOUISA) are discussed. We also analyze the conditions for the maximum signal-to-noise ratio of such an interferometer as a function of wavelength. The optimum wavelength is found to depend on the assumed scaling relation between telescope area and wavelength
Townes Group Activities from 1983-2000: Personal Recollections of William Danchi
I arrived in Berkeley in October 1983 as a post-doc, and my appointment was at the Space Sciences Laboratory (SSL). During that time the group was very large, with multiple activities led by Charlie himself and also by Senior Fellows such as John Lacy, Dan Jaffe, and Al Betz at the top of the hill at Space Sciences. Another significant contingent of the Townes group was housed in Birge Hall on campus, led by Reinhard Genzel when he was an Assistant Professor in the Physics Department. Although the group encompassed two separate locations, it functioned as one large group. Either we rode with Charlie up and down the hill, or (if we were concerned about our safety!) we took the bus
Molecular line survey of Sagittarius B2(M) from 330 to 355 GHz and comparison with Sagittarius B2(N)
We have surveyed molecular line emission from Sgr B2 over the range from 330 to 355 GHz at the position designated Sgr B2(M). This position is prominent in millimeter continuum maps of the region and is associated with a compact H II region, a hot NH_3 core, and sources of H_2O and OH maser emission. We have also obtained observations contrasting the submillimeter molecular emission from Sgr B2(M) and Sgr B2(N), an additional center of activity thought to be a dense protostellar core.
The picture of the interstellar chemistry of these regions which we derive is substantially different from that
determined from previous observations at lower frequencies and with lower spatial resolution. In particular,
molecules such as SO_2 and CH_3OH dominate the submillimeter spectrum to a much greater extent than they do
the low-frequency observations. Much of this difference is due to the higher spatial resolution of the submillimeter
observations, which makes them much more sensitive to emission from compact, dense cores. The millimeter
data were most effective at sampling material in the surrounding lower density regions. The chemistry of the core
sources in Sgr B2 appears similar to that of other dense cores, such as the core of the Orion molecular cloud.
The spectral differences between Sgr B2(M) and Sgr B2(N) primarily relate to differences in excitation and
column density. For most molecular species the northern source (N) has a column density significantly higher
than that found in the middle source (M), often by a factor of about 5. The principal exceptions are the species SO
and SO_2 which seem to be substantially more abundant in the middle source. Generally excitation seems to be
higher in the northern source, suggesting a somewhat higher density core, although there are some departures
indicating that the excitation situation is more complicated. High optical depths in many of the submillimeter transitions systematically bias the interpretation of both column densities and excitation. Many of the millimeter lines may also have high optical depths, particularly those lines arising from the compact core sources
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