Add to ORKGThe self-calibration method, a new interferometric technique using measurements in the K′-band (2.1 μm) at the CHARA Array, has been used to derive orbits for several spectroscopic binaries. This method uses the wide component of a hierarchical triple system to calibrate visibility measurements of the triple’s close binary system through quasi-simultaneous observations of the separated fringe packets of both. Prior to the onset of this project, the reduction of separated fringe packet data had never included the goal of deriving visibilities for both fringe packets, so new data reduction software has been written. Visibilities obtained with separated fringe packet data for the target close binary are run through both Monte Carlo simulations...
The Center for High Angular Resolution Astronomy (CHARA) was established in the College of Arts and ...
International audienceWe present the visual orbits of four spectroscopic binary stars, HD 61859, HD ...
This is the final version. Available on open access from the American Astronomical Society via the D...
The self-calibration method, a new interferometric technique using measurements in the K′-band (2.1 ...
We present the three dimensional orbits of eight double-lined spectroscopic binaries with longer orb...
This paper provides a summary of binary star research conducted at the CHARA Array. The high angular...
We employ the wide component of a triple system to calibrate the interferometric visibility of the i...
Over the past half century, multiplicity studies have provided a foundation for the theories of stel...
We present the modification of the orbits of χ Draconis and HD 184467, and a completely new orbit fo...
The CHARA Array is the longest baseline optical interferometer in the world. Operated with natural s...
When observed with optical long-baseline interferometers, components of a binary star that are suffi...
The CHARA Michigan Phase-tracker (CHAMP) is a real-time fringe tracker for the CHARA Array, a six-te...
The CHARA Array is the longest baseline optical interferometer in the world. Operated with natural s...
After an 11-year observing campaign, we present the combined visual–spectroscopic orbit of the forme...
The Sydney University Stellar Interferometer (SUSI) is being fitted with a new beam combiner, called...
The Center for High Angular Resolution Astronomy (CHARA) was established in the College of Arts and ...
International audienceWe present the visual orbits of four spectroscopic binary stars, HD 61859, HD ...
This is the final version. Available on open access from the American Astronomical Society via the D...
The self-calibration method, a new interferometric technique using measurements in the K′-band (2.1 ...
We present the three dimensional orbits of eight double-lined spectroscopic binaries with longer orb...
This paper provides a summary of binary star research conducted at the CHARA Array. The high angular...
We employ the wide component of a triple system to calibrate the interferometric visibility of the i...
Over the past half century, multiplicity studies have provided a foundation for the theories of stel...
We present the modification of the orbits of χ Draconis and HD 184467, and a completely new orbit fo...
The CHARA Array is the longest baseline optical interferometer in the world. Operated with natural s...
When observed with optical long-baseline interferometers, components of a binary star that are suffi...
The CHARA Michigan Phase-tracker (CHAMP) is a real-time fringe tracker for the CHARA Array, a six-te...
The CHARA Array is the longest baseline optical interferometer in the world. Operated with natural s...
After an 11-year observing campaign, we present the combined visual–spectroscopic orbit of the forme...
The Sydney University Stellar Interferometer (SUSI) is being fitted with a new beam combiner, called...
The Center for High Angular Resolution Astronomy (CHARA) was established in the College of Arts and ...
International audienceWe present the visual orbits of four spectroscopic binary stars, HD 61859, HD ...
This is the final version. Available on open access from the American Astronomical Society via the D...