Your search keyword '"Kitzman, Daniel"' showing total 5 results

1. The THOR+HELIOS general circulation model: multi-wavelength radiative transfer with accurate scattering by clouds/hazes

Author

Deitrick, Russell, Heng, Kevin, Schroffenegger, Urs, Kitzman, Daniel, Grimm, Simon L., Malik, Matej, Mendonça, João M., and Morris, Brett M.

Subjects

Astrophysics - Earth and Planetary Astrophysics, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

General circulation models (GCMs) provide context for interpreting multi-wavelength, multi-phase data of the atmospheres of tidally locked exoplanets. In the current study, the non-hydrostatic THOR GCM is coupled with the HELIOS radiative transfer solver for the first time, supported by an equilibrium chemistry solver (FastChem), opacity calculator (HELIOS-K) and Mie scattering code (LX-MIE). To accurately treat the scattering of radiation by medium-sized to large aerosols/condensates, improved two-stream radiative transfer is implemented within a GCM for the first time. Multiple scattering is implemented using a Thomas algorithm formulation of the two-stream flux solutions, which decreases the computational time by about 2 orders of magnitude compared to the iterative method used in past versions of HELIOS. As a case study, we present four GCMs of the hot Jupiter WASP-43b, where we compare the temperature, velocity, entropy, and streamfunction, as well as the synthetic spectra and phase curves, of runs using regular versus improved two-stream radiative transfer and isothermal versus non-isothermal layers. While the global climate is qualitatively robust, the synthetic spectra and phase curves are sensitive to these details. A THOR+HELIOS WASP-43b GCM (horizontal resolution of about 4 degrees on the sphere and with 40 radial points) with multi-wavelength radiative transfer (30 k-table bins) running for 3000 Earth days (864,000 time steps) takes about 19-26 days to complete depending on the type of GPU., Comment: 31 pages, 24 figures, accepted for publication at MNRAS

Published

2022

2. Contributors

Author

Alves, Jorge, primary, Ammannito, Eleonora, additional, André, Nicolas, additional, Arrigo, Gabriella, additional, Asmar, Sami, additional, Atkinson, David, additional, Autino, Adriano, additional, Beck, Pierre, additional, Berger, Gilles, additional, Blanc, Michel, additional, Bolton, Scott, additional, Bourdon, Anne, additional, Bousquet, Pierre, additional, Bunce, Emma, additional, Capria, Maria Teresa, additional, Chabert, Pascal, additional, Charnoz, Sébastien, additional, Chide, Baptiste, additional, Chien, Steve, additional, Cinelli, Ilaria, additional, Day, John, additional, Dehant, Véronique, additional, Demory, Brice, additional, Domagal-Goldman, Shawn, additional, Dorn, Caroline, additional, Fairén, Alberto G., additional, Filice, Valerio, additional, Fletcher, Leigh N., additional, Foing, Bernard, additional, Forget, François, additional, Freeman, Anthony, additional, Gaudi, B. Scott, additional, Genova, Antonio, additional, Grande, Manuel, additional, Green, James, additional, Griton, Léa, additional, Guo, Linli, additional, Hammel, Heidi, additional, Heinicke, Christiane, additional, Helled, Ravit, additional, Heng, Kevin, additional, Herique, Alain, additional, Höning, Dennis, additional, Hook, Joshua Vander, additional, Hutzler, Aurore, additional, Imamura, Takeshi, additional, Jackman, Caitriona, additional, Kaspi, Yohai, additional, Kim, Jyeong Ja, additional, Kitzman, Daniel, additional, Kofman, Wlodek, additional, Kokubo, Eiichiro, additional, Korablev, Oleg, additional, Lasue, Jérémie, additional, Lazio, Joseph, additional, Leconte, Jérémy, additional, Lellouch, Emmanuel, additional, Le Sergeant d'Hendecourt, Louis, additional, Lewis, Jonathan, additional, Li, Ming, additional, Mackwell, Steve, additional, Madi, Mohammad, additional, Makaya, Advenit, additional, Mangold, Nicolas, additional, Marty, Bernard, additional, Maurice, Sylvestre, additional, McNutt, Ralph, additional, Michel, Patrick, additional, Morbidelli, Alessandro, additional, Mordasini, Christoph, additional, Mousis, Olivier, additional, Nesvorny, David, additional, Noack, Lena, additional, Onoda, Masami, additional, Opher, Merav, additional, Ori, Gian Gabriele, additional, Owen, James, additional, Paranicas, Chris, additional, Parro, Victor, additional, Perino, Maria Antonietta, additional, Plainaki, Christina, additional, Preston, Robert, additional, Prieto-Ballesteros, Olga, additional, Qin, Liping, additional, Quanz, Sascha, additional, Rauer, Heike, additional, Rodriguez-Manfredi, Jose A., additional, Schmidt, Juergen, additional, Senske, Dave, additional, Snellen, Ignas, additional, Soderlund, Krista M., additional, Sotin, Christophe, additional, Spilker, Linda, additional, Spohn, Tilman, additional, Stephenson, Keith, additional, Sterken, Veerle J., additional, Testi, Leonardo, additional, Tosi, Nicola, additional, Toukaku, Yoshio, additional, Udry, Stéphane, additional, Vandaele, Ann C., additional, Vazan, Allona, additional, Venturini, Julia, additional, Vernazza, Pierre, additional, Waite, J. Hunter, additional, Wambsganss, Joachim, additional, Wedler, Armin, additional, Westall, Frances, additional, Zarka, Philippe, additional, Zine, Sonia, additional, and Zong, Qiugang, additional

Published

2023

3. Solar System/Exoplanet Science Synergies in a multidecadal perspective

Author

Rauer, Heike, primary, Blanc, Michel, additional, Venturini, Julia, additional, Dehant, Véronique, additional, Demory, Brice, additional, Dorn, Caroline, additional, Domagal-Goldman, Shawn, additional, Foing, Bernard, additional, Gaudi, B. Scott, additional, Helled, Ravit, additional, Heng, Kevin, additional, Kitzman, Daniel, additional, Kokubo, Eiichiro, additional, Le Sergeant d'Hendecourt, Louis, additional, Mordasini, Christoph, additional, Nesvorny, David, additional, Noack, Lena, additional, Opher, Merav, additional, Owen, James, additional, Paranicas, Chris, additional, Quanz, Sascha, additional, Qin, Liping, additional, Snellen, Ignas, additional, Testi, Leonardo, additional, Udry, Stéphane, additional, Wambsganss, Joachim, additional, Westall, Frances, additional, Zarka, Philippe, additional, and Zong, Qiugang, additional

Published

2023

4. Solar System/Exoplanet Science Synergies in a multidecadal perspective

Author

UCL - SST/ELI/ELIC - Earth & Climate, Rauer, Heike, Blanc, Michel, Venturini, Julia, Dehant, Véronique, Demory, Brice, Dorn, Caroline, Domagal-Goldman, Shawn, Foing, Bernard, Gaudi, B. Scott, Helled, Ravit, Heng, Kevin, Kitzman, Daniel, Kokubo, Eiichiro, Le Sergeant d'Hendecourt, Louis, Mordasini, Christoph, Nesvorny, David, Noack, Lena, Opher, Merav, Owen, James, Paranicas, Chris, Quanz, Sascha, Qin, Liping, Snellen, Ignas, Testi, Leonardo, Udry, Stéphane, Wambsganss, Joachim, Westall, Frances, Zarka, Philippe, Zong, Qiugang, UCL - SST/ELI/ELIC - Earth & Climate, Rauer, Heike, Blanc, Michel, Venturini, Julia, Dehant, Véronique, Demory, Brice, Dorn, Caroline, Domagal-Goldman, Shawn, Foing, Bernard, Gaudi, B. Scott, Helled, Ravit, Heng, Kevin, Kitzman, Daniel, Kokubo, Eiichiro, Le Sergeant d'Hendecourt, Louis, Mordasini, Christoph, Nesvorny, David, Noack, Lena, Opher, Merav, Owen, James, Paranicas, Chris, Quanz, Sascha, Qin, Liping, Snellen, Ignas, Testi, Leonardo, Udry, Stéphane, Wambsganss, Joachim, Westall, Frances, Zarka, Philippe, and Zong, Qiugang

Abstract

With the discovery of thousands of extrasolar planetary systems it becomes more and more evident that a large variety of planetary system architectures, including very different types of planets, have been realized in nature. Our solar system is just one among many. We do not know yet whether the evolution of the planets and moons in the solar system is typical for such objects in similar environments, or not. This includes in particular the capability to develop habitable surface conditions, or even life. Planets orbiting host stars different to our Sun can experience very different environmental conditions such as stellar spectral energy distributions and harsh cosmic rays impacting the orbiting planets. The dynamical evolution of planetary systems depends on the formation processes and interactions with the protoplanetary disk as well as migration processes. Looking at extrasolar planets in the sky today, we see systems in different astrophysical environments, at different ages and with different evolutionary histories. As outlined above, the number of processes shaping the characteristics of planets is large. Yet, for extrasolar planets the number of observables is small. Observational constraints are usually limited to orbital parameters, planetary masses, radii, and some of the atmospheric constituents. In fortunate cases additional constraints like magnetic fields and Love numbers will become accessible in the future. Additional constraints are given by the host star characteristics (metallicity, composition, age, temperature, etc.), but the link between stellar properties and planetary characteristics is complex and not fully understood yet. In view of this limited achievable data set, it becomes vital to better understand how we can learn from our detailed knowledge of the bodies in the solar system to better understand the planets and moons in extrasolar systems. Vice versa, extrasolar systems show us the possible variety of planetary systems, which helps

Published

2023

5. Chapter 2 - Solar System/Exoplanet Science Synergies in a multidecadal perspective

Author

Rauer, Heike, Blanc, Michel, Venturini, Julia, Dehant, Véronique, Demory, Brice, Dorn, Caroline, Domagal-Goldman, Shawn, Foing, Bernard, Gaudi, B. Scott, Helled, Ravit, Heng, Kevin, Kitzman, Daniel, Kokubo, Eiichiro, Le Sergeant d'Hendecourt, Louis, Mordasini, Christoph, Nesvorny, David, Noack, Lena, Opher, Merav, Owen, James, Paranicas, Chris, Quanz, Sascha, Qin, Liping, Snellen, Ignas, Testi, Leonardo, Udry, Stéphane, Wambsganss, Joachim, Westall, Frances, Zarka, Philippe, and Zong, Qiugang

Published

2023