The Site Tilt and Lander Transfer Function from the Short-Period Seismometer of InSight on Mars

Bulletin of the Seismological Society of America Seismological Society of America (SSA) 111:6 (2021) 2889-2908

Authors:

Alexander E Stott, Constantinos Charalambous, Tristram J Warren, William T Pike, Robert Myhill, Naomi Murdoch, John B McClean, Ashitey Trebi-Ollennu, Grace Lim, Raphael F Garcia, David Mimoun, Sharon Kedar, Kenneth J Hurst, Marco Bierwirth, Philippe Lognonné, Nicholas A Teanby, Anna Horleston, William B Banerdt

High-resolution spectroscopy

Chapter in ExoFrontiers: Big Questions in Exoplanetary Science, IOP Publishing (2021) 8-1

Authors:

Matteo Brogi, Jayne Birkby

Abstract:

High-resolution spectroscopy (HRS) allows resolving the spectrum of an exoplanetary atmosphere into individual lines and using the Doppler shift of the planet spectrum to disentangle it from other sources, such as telluric contamination and the host star spectrum. The method excels at identifying chemical species with numerous spectral lines and can be used for transmission, day/night-side emission, and reflected light spectroscopy. This chapter discusses the state of the art and important questions and goals for HRS, the opportunities it offers and the challenges it faces.

Detecting life outside our solar system with a large high-contrast-imaging mission

Experimental Astronomy Springer 54:2-3 (2021) 1237-1274

Authors:

Ignas AG Snellen, F Snik, M Kenworthy, S Albrecht, G Anglada-Escudé, I Baraffe, P Baudoz, W Benz, J-L Beuzit, B Biller, JL Birkby, A Boccaletti, R van Boekel, J de Boer, Matteo Brogi, L Buchhave, L Carone, M Claire, R Claudi, B-O Demory, J-M Désert, S Desidera, BS Gaudi, R Gratton, M Gillon

Abstract:

In this White Paper, which was submitted in response to the European Space Agency (ESA) Voyage 2050 Call, we recommend the ESA plays a proactive role in developing a global collaborative effort to construct a large high-contrast imaging space telescope, e.g. as currently under study by NASA. Such a mission will be needed to characterize a sizable sample of temperate Earth-like planets in the habitable zones of nearby Sun-like stars and to search for extraterrestrial biological activity. We provide an overview of relevant European expertise, and advocate ESA to start a technology development program towards detecting life outside the Solar System.Publisher PDFPeer reviewe

Lucy Mission to the Trojan Asteroids: Instrumentation and Encounter Concept of Operations

The Planetary Science Journal American Astronomical Society 2:5 (2021) 172

Authors:

Catherine B Olkin, Harold F Levison, Michael Vincent, Keith S Noll, John Andrews, Sheila Gray, Phil Good, Simone Marchi, Phil Christensen, Dennis Reuter, Harold Weaver, Martin Pätzold, James F Bell, Victoria E Hamilton, Neil Dello Russo, Amy Simon, Matt Beasley, Will Grundy, Carly Howett, John Spencer, Michael Ravine, Michael Caplinger

Origins space telescope: from first light to life

Experimental Astronomy Springer 51:3 (2021) 595-624

Authors:

MC Wiedner, S Aalto, L Armus, E Bergin, J Birkby, CM Bradford, D Burgarella, P Caselli, V Charmandaris, A Cooray, E De Beck, JM Desert, M Gerin, J Goicoechea, M Griffin, P Hartogh, F Helmich, M Hogerheijde, L Hunt, A Karska, Q Kral, D Leisawitz, G Melnick, M Meixner, M Matsuura, D Rigopoulou

Abstract:

Abstract The Origins Space Telescope (Origins) is one of four science and technology definition studies selected by the National Aeronautics and Space Administration (NASA) in preparation of the 2020 Astronomy and Astrophysics Decadal survey in the US. Origins will trace the history of our origins from the time dust and heavy elements permanently altered the cosmic landscape to present-day life. It is designed to answer three major science questions: How do galaxies form stars, make metals, and grow their central supermassive black holes from reionization? How do the conditions for habitability develop during the process of planet formation? Do planets orbiting M-dwarf stars support life? Origins operates at mid- to far-infrared wavelengths from ~ 2.8 μm to 588 μm, and is more than 1000 times more sensitive than prior far-IR missions due to its cold (~ 4.5 K) aperture and state-of-the-art instruments.