Difference between revisions of "How to Cite"

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= Main reference to cite the LMD Generic GCM =
+
= Main reference to cite the Generic PCM =
  
* Wordsworth et al. 2011 ?
+
* Forget et al., 2022-2023 (the documentation will be officially released at the time of the Forget et al. publication)
* Forget et al., in preparation ?
 
* Zelziz and Zane
 
  
= Other (more specialized) references =
+
= How to cite? (process by process) =
  
== exoplanets ==
+
== Slab ocean ==
 +
 
 +
Codron, Francis., Ekman heat transport for slab oceans, Climate Dynamics 38: 379-389 (2012)
 +
 
 +
Charnay, B.; Forget, F.; Wordsworth, R.; Leconte, J.; Millour, E.; Codron, F. and Spiga, A., Exploring the faint young Sun problem and the possible climates of the Archean Earth with a 3-D GCM, Journal of Geophysical Research (Atmospheres), vol.118, pp.10,414 (2013)
 +
 
 +
== CO2 ice clouds ==
 +
 
 +
Forget, F.; Wordsworth, R.; Millour, E.; Madeleine, J. B.; Kerber, L.; Leconte, J.; Marcq, E. and Haberle, R. M., 3D modelling of the early martian climate under a denser CO2 atmosphere: Temperatures and CO2 ice clouds, Icarus, vol.222, pp.81 (2013)
 +
 
 +
== etc. ==
 +
 
 +
TBD
 +
 
 +
= List of all references (using the Generic PCM) =
  
 
=== terrestrial exoplanets ===
 
=== terrestrial exoplanets ===
Line 15: Line 27:
  
 
Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R.; Selsis, F.; Millour, E. and Spiga, A., 3D climate modeling of close-in land planets: Circulation patterns, climate moist bistability, and habitability, Astronomy and Astrophysics, vol.554, pp.A69 (2013)
 
Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R.; Selsis, F.; Millour, E. and Spiga, A., 3D climate modeling of close-in land planets: Circulation patterns, climate moist bistability, and habitability, Astronomy and Astrophysics, vol.554, pp.A69 (2013)
 +
 +
Bolmont, E.; Libert, A. S.; Leconte, J.; & Selsis, F., Habitability of planets on eccentric orbits: Limits of the mean flux approximation, Astronomy & Astrophysics, vol.591, pp.A106 (2016)
  
 
Turbet, M.; Leconte, J.; Selsis, F.; Bolmont, E.; Forget, F.; Ribas, I.; Raymond, S. N. and Anglada-Escudé, G., The habitability of Proxima Centauri b. II. Possible climates and observability, Astronomy and Astrophysics, vol.596, pp.A112 (2016)
 
Turbet, M.; Leconte, J.; Selsis, F.; Bolmont, E.; Forget, F.; Ribas, I.; Raymond, S. N. and Anglada-Escudé, G., The habitability of Proxima Centauri b. II. Possible climates and observability, Astronomy and Astrophysics, vol.596, pp.A112 (2016)
Line 21: Line 35:
  
 
Turbet, M.; Bolmont, E.; Leconte, J.; Forget, F.; Selsis, F.; Tobie, G.; Caldas, A.; Naar, J. and Gillon, M., Modeling climate diversity, tidal dynamics and the fate of volatiles on TRAPPIST-1 planets, Astronomy and Astrophysics, vol.612, pp.A86 (2018)
 
Turbet, M.; Bolmont, E.; Leconte, J.; Forget, F.; Selsis, F.; Tobie, G.; Caldas, A.; Naar, J. and Gillon, M., Modeling climate diversity, tidal dynamics and the fate of volatiles on TRAPPIST-1 planets, Astronomy and Astrophysics, vol.612, pp.A86 (2018)
 +
 +
Fauchez, T. J.; Turbet, M.; Villanueva, G. L.; Wolf, E. T.; Arney, G.; Kopparapu, R. K.; Lincowski, A.; Mandell, A.; de Wit, J.; Pidhorodetska, D.; Domagal-Goldman, S. D. and Stevenson, K. B., Impact of Clouds and Hazes on the Simulated JWST Transmission Spectra of Habitable Zone Planets in the TRAPPIST-1 System, The Astrophysical Journal, vol.887, pp.194 (2019)
  
 
=== super-Earths ===
 
=== super-Earths ===
Line 31: Line 47:
  
 
Charnay, B.; Blain, D.; Bézard, B.; Leconte, J.; Turbet, M. and Falco, A., Formation and dynamics of water clouds on temperate sub-Neptunes: the example of K2-18b, Astronomy and Astrophysics, vol.646, pp.A171 (2021)
 
Charnay, B.; Blain, D.; Bézard, B.; Leconte, J.; Turbet, M. and Falco, A., Formation and dynamics of water clouds on temperate sub-Neptunes: the example of K2-18b, Astronomy and Astrophysics, vol.646, pp.A171 (2021)
 +
 +
=== LES ===
 +
Lefèvre, M.; Turbet, M. and Pierrehumbert, R., 3D Convection-resolving Model of Temperate, Tidally Locked Exoplanets, The Astrophysical Journal, vol.913, pp.101 (2021)
  
 
== paleoclimates ==
 
== paleoclimates ==
Line 37: Line 56:
  
 
Charnay, B.; Forget, F.; Wordsworth, R.; Leconte, J.; Millour, E.; Codron, F. and Spiga, A., Exploring the faint young Sun problem and the possible climates of the Archean Earth with a 3-D GCM, Journal of Geophysical Research (Atmospheres), vol.118, pp.10,414 (2013)
 
Charnay, B.; Forget, F.; Wordsworth, R.; Leconte, J.; Millour, E.; Codron, F. and Spiga, A., Exploring the faint young Sun problem and the possible climates of the Archean Earth with a 3-D GCM, Journal of Geophysical Research (Atmospheres), vol.118, pp.10,414 (2013)
 +
 +
Charnay, B.; Le Hir, G.; Fluteau, F.; Forget, F. and Catling, D. C., A warm or a cold early Earth? New insights from a 3-D climate-carbon model, Earth and Planetary Science Letters, vol.474, pp.97 (2017)
  
 
Turbet, M.; Bolmont, E.; Chaverot, G.; Ehrenreich, D.; Leconte, J. and Marcq, E., Day-night cloud asymmetry prevents early oceans on Venus but not on Earth, Nature, vol.598, pp.276 (2021)
 
Turbet, M.; Bolmont, E.; Chaverot, G.; Ehrenreich, D.; Leconte, J. and Marcq, E., Day-night cloud asymmetry prevents early oceans on Venus but not on Earth, Nature, vol.598, pp.276 (2021)
Line 64: Line 85:
 
Charnay, B.; Forget, F.; Tobie, G.; Sotin, C. and Wordsworth, R., Titan's past and future: 3D modeling of a pure nitrogen atmosphere and geological implications, Icarus, vol.241, pp.269 (2014)
 
Charnay, B.; Forget, F.; Tobie, G.; Sotin, C. and Wordsworth, R., Titan's past and future: 3D modeling of a pure nitrogen atmosphere and geological implications, Icarus, vol.241, pp.269 (2014)
 
DOI: 10.1016/j.icarus.2014.07.009
 
DOI: 10.1016/j.icarus.2014.07.009
 +
 +
== future climates ==
 +
 +
=== Earth ===
 +
 +
Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R. and Pottier, A., Increased insolation threshold for runaway greenhouse processes on Earth-like planets, Nature, vol.504, pp.268 (2013)
  
 
== gas giants ==
 
== gas giants ==
Line 69: Line 96:
 
=== Saturn ===
 
=== Saturn ===
  
==== physics, in particular radiative transfer ====
+
==== Saturn radiative transfer model ====
 
Guerlet, S.; Spiga, A.; Sylvestre, M.; Indurain, M.; Fouchet, T.; Leconte, J.; Millour, E.; Wordsworth, R.; Capderou, M.; Bézard, B. and Forget, F., Global climate modeling of Saturn’s atmosphere. Part I: Evaluation of the radiative transfer model, Icarus, vol.238, pp.110 (2014)
 
Guerlet, S.; Spiga, A.; Sylvestre, M.; Indurain, M.; Fouchet, T.; Leconte, J.; Millour, E.; Wordsworth, R.; Capderou, M.; Bézard, B. and Forget, F., Global climate modeling of Saturn’s atmosphere. Part I: Evaluation of the radiative transfer model, Icarus, vol.238, pp.110 (2014)
 
DOI: 10.1016/j.icarus.2014.05.010
 
DOI: 10.1016/j.icarus.2014.05.010
  
==== reference for Saturn DYNAMICO ====
+
==== Saturn DYNAMICO GCM tropospheric dynamics ====
 
Spiga, A.; Guerlet, S.; Millour, E.; Indurain, M.; Meurdesoif, Y.; Cabanes, S.; Dubos, T.; Leconte, J.; Boissinot, A.; Lebonnois, S.; Sylvestre, M. and Fouchet, T., Global climate modeling of Saturn's atmosphere. Part II: Multi-annual high-resolution dynamical simulations, Icarus, vol.335, pp.113377 (2020)
 
Spiga, A.; Guerlet, S.; Millour, E.; Indurain, M.; Meurdesoif, Y.; Cabanes, S.; Dubos, T.; Leconte, J.; Boissinot, A.; Lebonnois, S.; Sylvestre, M. and Fouchet, T., Global climate modeling of Saturn's atmosphere. Part II: Multi-annual high-resolution dynamical simulations, Icarus, vol.335, pp.113377 (2020)
 
DOI: 10.1016/j.icarus.2019.07.011
 
DOI: 10.1016/j.icarus.2019.07.011
 +
 +
==== Saturn DYNAMICO GCM statistical analysis of the zonostrophic dynamics ====
 +
Cabanes, S.; Spiga, A. and Young, R. M. B ., Global climate modeling of Saturn's atmosphere. Part III: Global statistical picture of zonostrophic turbulence in high-resolution 3D-turbulent simulations, Icarus, vol.345, pp. 113705 (2020)
 +
DOI: 10.1016/j.icarus.2020.113705
 +
 +
==== Saturn DYNAMICO GCM stratospheric dynamics ====
 +
Bardet, D.;  Spiga, A.;  Guerlet, S.;  Cabanes, S.;  Millour, E. and Boissinot, A., Global climate modeling of Saturn's atmosphere. Part IV: Stratospheric equatorial oscillation, Icarus, vol.354, pp. 114042 (2021)
 +
DOI: 10.1016/j.icarus.2020.114042
 +
 +
Bardet, D.;  Spiga, A. and  Guerlet, S., Joint evolution of equatorial oscillation and inter-hemispheric circulation in Saturn’s stratosphere, Nature Astronomy (2022)
 +
DOI: 10.1038/s41550-022-01670-7
  
 
=== Jupiter ===
 
=== Jupiter ===
 +
==== Jupiter radiative transfer model ====
 +
Guerlet, S.;  Spiga, A.;  Delattre, H. and  Fouchet, T., Radiative-equilibrium model of Jupiter's atmosphere and application to estimating stratospheric circulations, Icarus, vol.351, pp. 113935 (2020)
 +
DOI: 10.1016/j.icarus.2020.113935
  
 +
=== Uranus ===
  
==== Uranus ====
+
=== Neptune ===
  
==== Neptune ====
+
[[Category:Generic-Model]]

Latest revision as of 13:11, 16 January 2024

Main reference to cite the Generic PCM

  • Forget et al., 2022-2023 (the documentation will be officially released at the time of the Forget et al. publication)

How to cite? (process by process)

Slab ocean

Codron, Francis., Ekman heat transport for slab oceans, Climate Dynamics 38: 379-389 (2012)

Charnay, B.; Forget, F.; Wordsworth, R.; Leconte, J.; Millour, E.; Codron, F. and Spiga, A., Exploring the faint young Sun problem and the possible climates of the Archean Earth with a 3-D GCM, Journal of Geophysical Research (Atmospheres), vol.118, pp.10,414 (2013)

CO2 ice clouds

Forget, F.; Wordsworth, R.; Millour, E.; Madeleine, J. B.; Kerber, L.; Leconte, J.; Marcq, E. and Haberle, R. M., 3D modelling of the early martian climate under a denser CO2 atmosphere: Temperatures and CO2 ice clouds, Icarus, vol.222, pp.81 (2013)

etc.

TBD

List of all references (using the Generic PCM)

terrestrial exoplanets

Wordsworth, R. D.; Forget, F.; Selsis, F.; Millour, E.; Charnay, B. and Madeleine, J.-B., Gliese 581d is the First Discovered Terrestrial-mass Exoplanet in the Habitable Zone, The Astrophysical Journal, vol.733, pp.L48 (2011)

Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R.; Selsis, F.; Millour, E. and Spiga, A., 3D climate modeling of close-in land planets: Circulation patterns, climate moist bistability, and habitability, Astronomy and Astrophysics, vol.554, pp.A69 (2013)

Bolmont, E.; Libert, A. S.; Leconte, J.; & Selsis, F., Habitability of planets on eccentric orbits: Limits of the mean flux approximation, Astronomy & Astrophysics, vol.591, pp.A106 (2016)

Turbet, M.; Leconte, J.; Selsis, F.; Bolmont, E.; Forget, F.; Ribas, I.; Raymond, S. N. and Anglada-Escudé, G., The habitability of Proxima Centauri b. II. Possible climates and observability, Astronomy and Astrophysics, vol.596, pp.A112 (2016)

Turbet, M.; Forget, F.; Leconte, J.; Charnay, B. and Tobie, G., CO2 condensation is a serious limit to the deglaciation of Earth-like planets, Earth and Planetary Science Letters, vol.476, pp.11 (2017)

Turbet, M.; Bolmont, E.; Leconte, J.; Forget, F.; Selsis, F.; Tobie, G.; Caldas, A.; Naar, J. and Gillon, M., Modeling climate diversity, tidal dynamics and the fate of volatiles on TRAPPIST-1 planets, Astronomy and Astrophysics, vol.612, pp.A86 (2018)

Fauchez, T. J.; Turbet, M.; Villanueva, G. L.; Wolf, E. T.; Arney, G.; Kopparapu, R. K.; Lincowski, A.; Mandell, A.; de Wit, J.; Pidhorodetska, D.; Domagal-Goldman, S. D. and Stevenson, K. B., Impact of Clouds and Hazes on the Simulated JWST Transmission Spectra of Habitable Zone Planets in the TRAPPIST-1 System, The Astrophysical Journal, vol.887, pp.194 (2019)

super-Earths

Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R.; Selsis, F.; Millour, E. and Spiga, A., 3D climate modeling of close-in land planets: Circulation patterns, climate moist bistability, and habitability, Astronomy and Astrophysics, vol.554, pp.A69 (2013)

mini-Neptunes

Benjamin's two papers on GJ1214b

Charnay, B.; Blain, D.; Bézard, B.; Leconte, J.; Turbet, M. and Falco, A., Formation and dynamics of water clouds on temperate sub-Neptunes: the example of K2-18b, Astronomy and Astrophysics, vol.646, pp.A171 (2021)

LES

Lefèvre, M.; Turbet, M. and Pierrehumbert, R., 3D Convection-resolving Model of Temperate, Tidally Locked Exoplanets, The Astrophysical Journal, vol.913, pp.101 (2021)

paleoclimates

Earth

Charnay, B.; Forget, F.; Wordsworth, R.; Leconte, J.; Millour, E.; Codron, F. and Spiga, A., Exploring the faint young Sun problem and the possible climates of the Archean Earth with a 3-D GCM, Journal of Geophysical Research (Atmospheres), vol.118, pp.10,414 (2013)

Charnay, B.; Le Hir, G.; Fluteau, F.; Forget, F. and Catling, D. C., A warm or a cold early Earth? New insights from a 3-D climate-carbon model, Earth and Planetary Science Letters, vol.474, pp.97 (2017)

Turbet, M.; Bolmont, E.; Chaverot, G.; Ehrenreich, D.; Leconte, J. and Marcq, E., Day-night cloud asymmetry prevents early oceans on Venus but not on Earth, Nature, vol.598, pp.276 (2021)

Mars

Forget, F.; Wordsworth, R.; Millour, E.; Madeleine, J. B.; Kerber, L.; Leconte, J.; Marcq, E. and Haberle, R. M., 3D modelling of the early martian climate under a denser CO2 atmosphere: Temperatures and CO2 ice clouds, Icarus, vol.222, pp.81 (2013)

Wordsworth, R.; Forget, F.; Millour, E.; Head, J. W.; Madeleine, J. B. and Charnay, B., Global modelling of the early martian climate under a denser CO2 atmosphere: Water cycle and ice evolution, Icarus, vol.222, pp.1 (2013)

Wordsworth, R. D.; Kerber, L.; Pierrehumbert, R. T.; Forget, F. and Head, J. W., Comparison of "warm and wet" and "cold and icy" scenarios for early Mars in a 3-D climate model, Journal of Geophysical Research (Planets), vol.120, pp.1201 (2015)

Kerber, L.; Forget, F. and Wordsworth, R., Sulfur in the early martian atmosphere revisited: Experiments with a 3-D Global Climate Model, Icarus, vol.261, pp.133 (2015)

Turbet, M.; Forget, F.; Head, J. W. and Wordsworth, R., 3D modelling of the climatic impact of outflow channel formation events on early Mars, Icarus, vol.288, pp.10 (2017)

Turbet, M. and Forget, F., The paradoxes of the Late Hesperian Mars ocean, Scientific Reports, vol.9, pp.5717 (2019)

Turbet, M.; Gillmann, C.; Forget, F.; Baudin, B.; Palumbo, A.; Head, J. and Karatekin, O., The environmental effects of very large bolide impacts on early Mars explored with a hierarchy of numerical models, Icarus, vol.335, pp.113419 (2020)

Venus

Turbet, M.; Bolmont, E.; Chaverot, G.; Ehrenreich, D.; Leconte, J. and Marcq, E., Day-night cloud asymmetry prevents early oceans on Venus but not on Earth, Nature, vol.598, pp.276 (2021)

Titan

Charnay, B.; Forget, F.; Tobie, G.; Sotin, C. and Wordsworth, R., Titan's past and future: 3D modeling of a pure nitrogen atmosphere and geological implications, Icarus, vol.241, pp.269 (2014) DOI: 10.1016/j.icarus.2014.07.009

future climates

Earth

Leconte, J.; Forget, F.; Charnay, B.; Wordsworth, R. and Pottier, A., Increased insolation threshold for runaway greenhouse processes on Earth-like planets, Nature, vol.504, pp.268 (2013)

gas giants

Saturn

Saturn radiative transfer model

Guerlet, S.; Spiga, A.; Sylvestre, M.; Indurain, M.; Fouchet, T.; Leconte, J.; Millour, E.; Wordsworth, R.; Capderou, M.; Bézard, B. and Forget, F., Global climate modeling of Saturn’s atmosphere. Part I: Evaluation of the radiative transfer model, Icarus, vol.238, pp.110 (2014) DOI: 10.1016/j.icarus.2014.05.010

Saturn DYNAMICO GCM tropospheric dynamics

Spiga, A.; Guerlet, S.; Millour, E.; Indurain, M.; Meurdesoif, Y.; Cabanes, S.; Dubos, T.; Leconte, J.; Boissinot, A.; Lebonnois, S.; Sylvestre, M. and Fouchet, T., Global climate modeling of Saturn's atmosphere. Part II: Multi-annual high-resolution dynamical simulations, Icarus, vol.335, pp.113377 (2020) DOI: 10.1016/j.icarus.2019.07.011

Saturn DYNAMICO GCM statistical analysis of the zonostrophic dynamics

Cabanes, S.; Spiga, A. and Young, R. M. B ., Global climate modeling of Saturn's atmosphere. Part III: Global statistical picture of zonostrophic turbulence in high-resolution 3D-turbulent simulations, Icarus, vol.345, pp. 113705 (2020) DOI: 10.1016/j.icarus.2020.113705

Saturn DYNAMICO GCM stratospheric dynamics

Bardet, D.; Spiga, A.; Guerlet, S.; Cabanes, S.; Millour, E. and Boissinot, A., Global climate modeling of Saturn's atmosphere. Part IV: Stratospheric equatorial oscillation, Icarus, vol.354, pp. 114042 (2021) DOI: 10.1016/j.icarus.2020.114042

Bardet, D.; Spiga, A. and Guerlet, S., Joint evolution of equatorial oscillation and inter-hemispheric circulation in Saturn’s stratosphere, Nature Astronomy (2022) DOI: 10.1038/s41550-022-01670-7

Jupiter

Jupiter radiative transfer model

Guerlet, S.; Spiga, A.; Delattre, H. and Fouchet, T., Radiative-equilibrium model of Jupiter's atmosphere and application to estimating stratospheric circulations, Icarus, vol.351, pp. 113935 (2020) DOI: 10.1016/j.icarus.2020.113935

Uranus

Neptune