Your search keyword '"Krause, Elisabeth"' showing total 4 results

1. The High Latitude Spectroscopic Survey on the Nancy Grace Roman Space Telescope.

Author

Wang, Yun, Zhai, Zhongxu, Alavi, Anahita, Massara, Elena, Pisani, Alice, Benson, Andrew, Hirata, Christopher M., Samushia, Lado, Weinberg, David H., Colbert, James, Doré, Olivier, Eifler, Tim, Heinrich, Chen, Ho, Shirley, Krause, Elisabeth, Padmanabhan, Nikhil, Spergel, David, and Teplitz, Harry I.

Subjects

GALAXY formation, SPACE telescopes, LATITUDE, DARK energy, ROMANS, REDSHIFT

Abstract

The Nancy Grace Roman Space Telescope will conduct a High Latitude Spectroscopic Survey (HLSS) over a large volume at high redshift, using the near-IR grism (1.0â€"1.93 ÎĽ m, R = 435â€"865) and the 0.28 deg2 wide-field camera. We present a reference HLSS that maps 2000 deg2 and achieves an emission-line flux limit of 10âˆ'16 erg sâˆ'1 cmâˆ'2 at 6.5 σ, requiring ∼0.6 yr of observing time. We summarize the flowdown of the Roman science objectives to the science and technical requirements of the HLSS. We construct a mock redshift survey over the full HLSS volume by applying a semianalytic galaxy formation model to a cosmological N -body simulation and use this mock survey to create pixel-level simulations of 4 deg2 of HLSS grism spectroscopy. We find that the reference HLSS would measure ∼10 million H α galaxy redshifts that densely map large-scale structure at z = 1â€"2 and 2 million [O iii ] galaxy redshifts that sparsely map structures at z = 2â€"3. We forecast the performance of this survey for measurements of the cosmic expansion history with baryon acoustic oscillations and the growth of large-scale structure with redshift-space distortions. We also study possible deviations from the reference design and find that a deep HLSS at f line > 7 Ă— 10âˆ'17 erg sâˆ'1 cmâˆ'2 over 4000 deg2 (requiring ∼1.5 yr of observing time) provides the most compelling stand-alone constraints on dark energy from Roman alone. This provides a useful reference for future optimizations. The reference survey, simulated data sets, and forecasts presented here will inform community decisions on the final scope and design of the Roman HLSS. [ABSTRACT FROM AUTHOR]

Published

2022

2. An Observed Fundamental Plane Relation for Supermassive Black Holes.

Author

Hopkins, Philip F., Hernquist, Lars, Cox, Thomas J., Robertson, Brant, and Krause, Elisabeth

Published

2007

3. A Theoretical Interpretation of the Black Hole Fundamental Plane.

Author

Hopkins, Philip F., Hernquist, Lars, Cox, Thomas J., Robertson, Brant, and Krause, Elisabeth

Published

2007

4. An Upper Limit to the Degree of Evolution between Supermassive Black Holes and Their Host Galaxies.

Author

Hopkins, Philip F., Robertson, Brant, Krause, Elisabeth, Hernquist, Lars, and Cox, Thomas J.

Published

2006