Your search keyword '"Czeszumska, Agnieszka"' showing total 6 results

1. Precise Stellar Radial Velocities of an M Dwarf with a Michelson Interferometer and a Medium-resolution Near-infrared Spectrograph

Author

Muirhead, Philip S., Edelstein, Jerry, Erskine, David J., Wright, Jason T., Muterspaugh, Matthew W., Covey, Kevin R., Wishnow, Edward H., Hamren, Katherine, Andelson, Phillip, Kimber, David, Mercer, Tony, Halverson, Samuel P., Vanderburg, Andrew, Mondo, Daniel, Czeszumska, Agnieszka, and Lloyd, James P.

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

Precise near-infrared radial velocimetry enables efficient detection and transit verification of low-mass extrasolar planets orbiting M dwarf hosts, which are faint for visible-wavelength radial velocity surveys. The TripleSpec Exoplanet Discovery Instrument, or TEDI, is the combination of a variable-delay Michelson interferometer and a medium-resolution (R=2700) near-infrared spectrograph on the Palomar 200" Hale Telescope. We used TEDI to monitor GJ 699, a nearby mid-M dwarf, over 11 nights spread across 3 months. Analysis of 106 independent observations reveals a root-mean-square precision of less than 37 m/s for 5 minutes of integration time. This performance is within a factor of 2 of our expected photon-limited precision. We further decompose the residuals into a 33 m/s white noise component, and a 15 m/s systematic noise component, which we identify as likely due to contamination by telluric absorption lines. With further development this technique holds promise for broad implementation on medium-resolution near-infrared spectrographs to search for low-mass exoplanets orbiting M dwarfs, and to verify low-mass transit candidates., Comment: 55 pages and 13 figures in aastex format. Accepted by PASP

Published

2011

2. β-delayed neutron studies of 137−138I and 144−145Cs performed with trapped ions

Author

Czeszumska, Agnieszka Anna

Subjects

Nuclear engineering, Nuclear physics and radiation, beta decay, beta-delayed neutron, ion trap

Abstract

The β-delayed neutron (βn) emission decay mode, prevalent in a vast number of neutron- rich nuclei, influences abundances calculated in the r-process nucleosynthesis models, affects nuclear reactor safety analysis calculations, and can illuminate aspects of nuclear structure. This thesis describes a newly developed recoil ion detection technique that was applied for high-precision βn branching ratio and neutron energy measurements of 137−138I and 144−145Cs. The recoil ion measurement approach avoids difficulties associated with direct neutron detec- tion by instead detecting the daughter ion recoiling from neutron emission. The radioactive ions of interest are held in near-rest with the use of an ion trap, from which they leave the trap upon β or βn decay. The detector array surrounding the trap measures the time-of- flight of the recoil ion, as well as several associated decay products. Measuring the recoil ion’s time-of-flight determines the recoil energy, from which the emitted neutron’s energy can be deduced. Detecting other decay products gives rise to three different methods of measuring the βn branching ratio, which helps expose systematic effects. The technique builds upon a previous proof-of-principle experiment, and was expanded for the present measurements to include twice as many improved detectors, an upgraded ion trap, and a stronger source. This thesis also examines various backgrounds and detailed detector characterizations. The experimental campaign presented here serves to probe the limits of applying the recoil ion technique to explore further into the neutron-rich region.

Published

2016

3. Precise Stellar Radial Velocities of an M Dwarf with a Michelson Interferometer and a Medium-Resolution Near-Infrared Spectrograph

Author

Muirhead, Philip S., primary, Edelstein, Jerry, additional, Erskine, David J., additional, Wright, Jason T., additional, Muterspaugh, Matthew W., additional, Covey, Kevin R., additional, Wishnow, Edward H., additional, Hamren, Katherine, additional, Andelson, Phillip, additional, Kimber, David, additional, Mercer, Tony, additional, Halverson, Samuel P., additional, Vanderburg, Andrew, additional, Mondo, Daniel, additional, Czeszumska, Agnieszka, additional, and Lloyd, James P., additional

Published

2011

4. Dispersed interferometry for infrared exoplanet velocimetry

Author

Edelstein, Jerry, primary, Muterspaugh, Matthew W., additional, Erskine, David, additional, Marckwordt, Mario, additional, Feuerstein, W. Michael, additional, Mercer, Tony, additional, Czeszumska, Agnieszka, additional, Schwer, Jaclyn, additional, Halverson, Sam, additional, Lloyd, James P., additional, Muirhead, Philip S., additional, Wright, Jason T., additional, and Herter, Terry, additional

Published

2008

5. Precision Radial Velocities in the Near Infrared with TEDI

Author

Lloyd, James P., primary, Czeszumska, Agnieszka, additional, Edelstein, Jerry, additional, Erskine, David, additional, Feuerstein, Michael, additional, Halverson, Sam, additional, Marckwordt, Mario, additional, Mercer, Tony, additional, Muirhead, Philip, additional, Schwehr, Jackie, additional, Muterspaugh, Matthew, additional, Wishnow, Ed, additional, and Wright, Jason, additional

Published

2008

6. Dispersed interferometry for infrared exoplanet velocimetry.

Author

Edelstein, Jerry, Muterspaugh, Matthew W., Erskine, David, Marckwordt, Mario, Feuerstein, W. Michael, Mercer, Tony, Czeszumska, Agnieszka, Schwer, Jaclyn, Halverson, Sam, Lloyd, James P., Muirhead, Philip S., Wright, Jason T., and Herter, Terry

Published

2008