Bret Goodrich scite author profile

We present an overview of the National Science Foundation’s Daniel K. Inouye Solar Telescope (DKIST), its instruments, and support facilities. The 4 m aperture DKIST provides the highest-resolution observations of the Sun ever achieved. The large aperture of DKIST combined with state-of-the-art instrumentation provide the sensitivity to measure the vector magnetic field in the chromosphere and in the faint corona, i.e. for the first time with DKIST we will be able to measure and study the most important free-energy source in the outer solar atmosphere – the coronal magnetic field. Over its operational lifetime DKIST will advance our knowledge of fundamental astronomical processes, including highly dynamic solar eruptions that are at the source of space-weather events that impact our technological society. Design and construction of DKIST took over two decades. DKIST implements a fast (f/2), off-axis Gregorian optical design. The maximum available field-of-view is 5 arcmin. A complex thermal-control system was implemented in order to remove at prime focus the majority of the 13 kW collected by the primary mirror and to keep optical surfaces and structures at ambient temperature, thus avoiding self-induced local seeing. A high-order adaptive-optics system with 1600 actuators corrects atmospheric seeing enabling diffraction limited imaging and spectroscopy. Five instruments, four of which are polarimeters, provide powerful diagnostic capability over a broad wavelength range covering the visible, near-infrared, and mid-infrared spectrum. New polarization-calibration strategies were developed to achieve the stringent polarization accuracy requirement of 5×10−4. Instruments can be combined and operated simultaneously in order to obtain a maximum of observational information. Observing time on DKIST is allocated through an open, merit-based proposal process. DKIST will be operated primarily in “service mode” and is expected to on average produce 3 PB of raw data per year. A newly developed data center located at the NSO Headquarters in Boulder will initially serve fully calibrated data to the international users community. Higher-level data products, such as physical parameters obtained from inversions of spectro-polarimetric data will be added as resources allow.

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Chromospherically active stars. II - HD 82558, a young single BY Draconis variable

Fekel¹,

Bopp²,

Africano³

et al. 1986

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Sky brightness at the Kitt Peak National Observatory

Pilachowski

Africano

Goodrich

et al. 1989

PASP

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We report results of a program to determine the brightness of the night sky at Kitt Peak during the recent solar minimum. Well-calibrated photometry in B and V suggests that the average brightness of the night sky during this period was approximately V = 21.9, B = 23.0 in magnitudes per square arc second but that variations of a few tenths of a magnitude can occur from night to night, or even during a single night. Since 1987 the sky has already brightened considerably, probably due to the increase in solar activity as the Sun moves toward sunspot maximum in 1991.

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Bret Goodrich

Detection of microvariability for BL Lacertae objects

The timescales of the optical variability of blazars. III - OJ 287 and BL Lacertae

The Daniel K. Inouye Solar Telescope – Observatory Overview

Chromospherically active stars. II - HD 82558, a young single BY Draconis variable

Sky brightness at the Kitt Peak National Observatory

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