Professor Andrew Bunker

Spectroscopic confirmation of four metal-poor galaxies at z = 10.3–13.2

Nature Astronomy Springer Nature 7:5 (2023) 622-632

Authors:

Emma Curtis-Lake, Stefano Carniani, Alex Cameron, Stephane Charlot, Peter Jakobsen, Roberto Maiolino, Andrew Bunker, Joris Witstok, Renske Smit, Jacopo Chevallard, Chris Willott, Pierre Ferruit, Santiago Arribas, Nina Bonaventura, Mirko Curti, Francesco D’Eugenio, Marijn Franx, Giovanna Giardino, Tobias J Looser, Nora Lützgendorf, Michael V Maseda, Tim Rawle, Hans-Walter Rix, Bruno Rodríguez del Pino, Hannah Übler, Marco Sirianni, Alan Dressler, Eiichi Egami, Daniel J Eisenstein, Ryan Endsley, Kevin Hainline, Ryan Hausen, Benjamin D Johnson, Marcia Rieke, Brant Robertson, Irene Shivaei, Daniel P Stark, Sandro Tacchella, Christina C Williams, Christopher NA Willmer, Rachana Bhatawdekar, Rebecca Bowler, Kristan Boyett, Zuyi Chen, Anna de Graaff, Jakob M Helton, Raphael E Hviding, Gareth C Jones, Nimisha Kumari, Jianwei Lyu, Erica Nelson, Michele Perna, Lester Sandles, Aayush Saxena, Katherine A Suess, Fengwu Sun, Michael W Topping, Imaan EB Wallace, Lily Whitler

The ultra-dense, interacting environment of a dual AGN at z $\sim$ 3.3 revealed by JWST/NIRSpec IFS

(2023)

Authors:

M Perna, S Arribas, M Marshall, F D'Eugenio, H Übler, A Bunker, S Charlot, S Carniani, P Jakobsen, R Maiolino, B Rodríguez Del Pino, CJ Willott, T Böker, C Circosta, G Cresci, M Curti, B Husemann, N Kumari, I Lamperti, PG Pérez-González, J Scholtz

The Science Performance of JWST as Characterized in Commissioning

Publications of the Astronomical Society of the Pacific IOP Publishing 135:1046 (2023) 048001-048001

Authors:

Jane Rigby, Marshall Perrin, Michael McElwain, Randy Kimble, Scott Friedman, Matt Lallo, René Doyon, Lee Feinberg, Pierre Ferruit, Alistair Glasse, Marcia Rieke, George Rieke, Gillian Wright, Chris Willott, Knicole Colon, Stefanie Milam, Susan Neff, Christopher Stark, Jeff Valenti, Jim Abell, Faith Abney, Yasin Abul-Huda, D Scott Acton, Evan Adams, David Adler

Abstract:

We summarize JWST's measured telescope performance across science Cycle 1. The stability of segments alignments is typically better than 10 nanometers RMS between measurements every two days, leading to highly stable point spread functions. The frequency of segment "tilt events" decreased significantly, and larger tilt events ceased entirely, as structures gradually equilibrated after cooldown. Mirror corrections every 1-2 months now maintain the telescope below 70 nm RMS wavefront error. Observed micrometeoroid impacts during cycle 1 had negligible effect on science performance, consistent with preflight predictions. As JWST begins Cycle 2, its optical performance and stability are equal to, and in some ways better than, the performance reported at the end of commissioning.Comment: STScI Technical Memo. 2.5 pages text, 1 figur

The ionising photon production efficiency at z~6 for Lyman-alpha emitters using JEMS and MUSE

(2023)

Authors:

Charlotte Simmonds, Sandro Tacchella, Michael V Maseda, Christina Williams, William M Baker, Callum Witten, Benjamin D Johnson, Brant Robertson, Aayush Saxena, Fengwu Sun, Joris Witstok, Rachana Bhatawdekar, Kristan Boyett, Andrew J Bunker, Stephane Charlot, Emma Curtis-Lake, Eiichi Egami, Daniel J Eisenstein, Zhiyuan Ji, Roberto Maiolino, Lester Sandles, Renske Smit, Hannah Übler, Chris Willott

In-orbit Performance of the Near-infrared Spectrograph NIRSpec on the James Webb Space Telescope

Publications of the Astronomical Society of the Pacific IOP Publishing 135:1045 (2023) 038001-038001

Authors:

T Böker, TL Beck, SM Birkmann, G Giardino, C Keyes, N Kumari, J Muzerolle, T Rawle, P Zeidler, Y Abul-Huda, C Alves de Oliveira, S Arribas, K Bechtold, R Bhatawdekar, N Bonaventura, AJ Bunker, AJ Cameron, S Carniani, S Charlot, M Curti, N Espinoza, P Ferruit, M Franx, P Jakobsen, D Karakla

Abstract:

The Near-Infrared Spectrograph (NIRSpec) is one of the four focal plane instruments on the James Webb Space Telescope. In this paper, we summarize the in-orbit performance of NIRSpec, as derived from data collected during its commissioning campaign and the first few months of nominal science operations. More specifically, we discuss the performance of some critical hardware components such as the two NIRSpec Hawaii-2RG detectors, wheel mechanisms, and the microshutter array. We also summarize the accuracy of the two target acquisition procedures used to accurately place science targets into the slit apertures, discuss the current status of the spectrophotometric and wavelength calibration of NIRSpec spectra, and provide the "as measured" sensitivity in all NIRSpec science modes. Finally, we point out a few important considerations for the preparation of NIRSpec science programs