W. Hoffman scite author profile

We describe the characteristics of the BIMA millimeter wave array at Hat Creek, CA. The array is an aperture synthesis instrument consisting of nine 6 m diameter antennas which may be deployed in three different configurations, with spacings ranging from 7 m up to 1.3 km. At an observing frequency of 100 GHz these configurations yield maps with angular resolutions of 5", 2", and 074, over a 2' field. Larger fields may be mapped by using multiple pointings. For all but the oldest telescopes, the surface accuracy is ^30 /zm rms, and the aperture efficiency is 77% at 100 GHz. Background emission from antenna losses and spillover is very low, about 5 K after subtraction of the cosmic B v {2.1 K). Each antenna contains a single dewar which accommodates up to four separate receivers. SIS mixers are cooled to 3.2 K with novel Gifford-McMahon cycle refrigerators. Both the upper and lower sidebands of the first local oscillator are received and separated, providing two bands extending from 70-900 MHz on each side of the first local oscillator. The correlation spectrometer covers a bandwidth of up to 800 MHz, and provides up to 2048 channels for each antenna pair. There are four independently tunable spectral windows (in each sideband), allowing simultaneous observations of several different spectral lines. The spectral resolution ranges from 6 kHz to 3 MHz. For a single 8-hr track in one configuration, the sensitivity is approximately 1 mJy/beam in the 800 MHz wide continuum. Measurements of atmospheric phase fluctuations as functions of both time and baseline have been made; these indicate that routine imaging at angular resolutions of less than 1" at 100 GHz is possible only if self-calibration or some other means of phase correction can be applied. Examples of a few recent results are included. We note that 30% of the observing time on the array is granted to visitors.

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Studies in Stellar Evolution.IX. Theoretical Isochrones for Early-Type Clusters

Simpson¹,

Hills²,

Hoffman³

et al. 1970

ApJ

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The Beam Shape of the NRAO 900-ft Telescope and its Influence on 21-cm Line Measurements

Heiles¹,

Hoffman²

1968

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<title>Automated tuning of the Berkeley-Illinois-Maryland array receivers</title>

Thatte

Plambeck

Lugten

et al. 1995

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The Berkeley Illinois Maryland Association (BIMA) array consists of 6 antennas, each 6 meters in diameter, operating at a wavelength of 3 mm. The telescope control is fully automated, allowing round-the-clock observing with little or no supervision. The array can also be controlled from a remote site.One of the major challenges of automated operation is the ability to tune multiple receivers to the desired operating frequency in a reliable manner. The large tuning range required at millimeter wavelengths (85 to 115 GHz) , the non linear response of the microwave cavities and oscillator phase lock problems have been stumbling blocks for remote receiver tuning.At BIMA, we have developed an automated system capable of tuning all the receivers to any observing frequency within a few minutes. The system uses a Sun workstation in conjunction with dedicated hardware to control the receivers. Large disparities between receiver characteristics are handled in an efficient manner through the use of lookup tables. We describe the system design in detail, and discuss the problems encountered along with appropriate solutions. The generation of lookup tables in the laboratory is also presented.

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A cylindrical wire chamber

Miller

Hoffman

1967

Nuclear Instruments and Methods

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W. Hoffman

The Berkeley-Illinois-Maryland-Association Millimeter Array

Studies in Stellar Evolution.IX. Theoretical Isochrones for Early-Type Clusters

The Beam Shape of the NRAO 900-ft Telescope and its Influence on 21-cm Line Measurements

<title>Automated tuning of the Berkeley-Illinois-Maryland array receivers</title>

A cylindrical wire chamber

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