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مجموعة الفضاء وعلوم الكواكب

Publications & Patents

  • Publications
  • Books and Other Publications
  • Conferences
Publications

Q1 Publications

  • [50] Valantinas, A., et al including R. El-Maarry (2024). Evidence for transient morning water frost deposits on the Tharsis volcanoes of Mars. Nature Geoscience.
  • [49] Mushtaq, H., Singh, K., Zaheer, S., Kourakis, I. (2024). Nonlinear Ion-Acoustic Waves with Landau Damping in Non-Maxwellian Space Plasmas. Scientific Reports 14, 13005.
  • [48] Veldes, G.P., Lazarides, N., Frantzeskakis, D.J., Kourakis, I. (2024). Coupled circularly polarized electromagnetic soliton states in magnetized plasmas.Nonlinear Dynamics112, 9477–9494 (2024).
  • [47] Lazarides, N., Kourakis, I. (2024). Coupled nonlinear Schrödinger (CNLS) equations for two interacting electrostatic wavepackets in a non-Maxwellian fluid plasma model.Nonlinear Dynamics112, 2795–2819.
  • [46] Atwood, A., Smith, M. D., Wolff, M. J., Badri, K., Edwards, C. S., Christensen, P. R., Alain Khayat, S. J., El-Maarry, M. R. (2024). Spatial and temporal variability of martian water-ice cloud effective radius in EMIRS thermal infrared observations. Icarus 418, 116148.
  • [45] Chirakkil, K., et al. including Susarla, R., and El-Kork, N. (2024). EMM EMUS Observations of Hot Oxygen Corona at Mars: Radial Distribution and Temporal Variability. Journal of Geophysical Research: Space Physics 129, e2023JA032342. https://doi.org/10. 1029/2023JA032342.
  • [44] Sort, L., Hubert, B., Gerard, J.-C., Jain, S., Chiakkil, K., Lillis, R.,Deighan, J. (2024). Quantifying the Electron Energy of Mars Aurorae Through the Oxygen Emission Brightness Ratio at 130.4 and 135.6nm. Journal of Geophysical Research: Planets,
  • [43] Fernando, A., Wolff, M. J., Forget, F., Alfalahi, A. El-Kork, N. (2024). Diurnal and seasonal variations of orographic clouds in the Tharsis region with EMM/EXI observations and the Mars Planetary Climate Model. Icarus 417,
  • [42] Evans, J. S., et al. ncluding El-Kork (2024). Retrieval of Ar, N2, O, and CO in the Martian thermosphere using dayglow limb observations by EMM EMUS. Journal of Geophysical Research: Planets129.4 (2024): e2023JE008181.
  • [41] Kuldeep, S., Verheest, F., Kourakis, I. (2024). Evolution of Subsonic Shock Waves Associated with Reconnection Jets in Earth’s Magnetotail. The Astrophysical Journal 966, Issue 2, id.203,
  • [40] Varghese, S. S., Kuldeep, S., Kourakis, I. (2024). Electrostatic solitary waves in a bi-ion plasma with two suprathermal electron populations – application to Saturn’s magnetosphere. Monthly Notices of the Royal Astronomical Society 527, Issue 3, pp.8337-8354.
  • [39] Lazarides, N., Veldes, G. P., Frantzeskakis, D. J., and Kourakis, I. (2024). Electrostatic wave interaction via asymmetric vector solitons as precursor to rogue wave formation in non-Maxwellian plasmas. Scientific Reports 14, article id. 2150.
  • [38] Jones, G. H., et al including El-Maarry M.R. (2024). The Comet Interceptor Mission. Space Science Reviews 220, issue 1, article id. 9,
  • [37] Ruesch, O., Hess, M., Woehler, C., Bickel, V., Marshal, R. M., Patzek, M., and Huybrighs, H. L. F. (2024). Discovery of a Dust Sorting Process on Boulders Near the Reiner Gamma Swirl on the Moon. Journal of Geophysical Research: Planets 129, Issue 1, article id. e2023JE007910.
  • [36] Lazarides, N., Veldes, G. P., Javed, A., Kourakis, I. (2023). Modulational electrostatic wave-wave interactions in plasma fluids modelled by asymmetric coupled nonlinear Schrodinger (CNLS) equations, Chaos, Solitons and Fractals 175, Part 1, 113974; .
  • [35] Kakad A., Kakad, B., Yoon, P.H., Omura Y. and Kourakis,, (2023). Characterization of high-frequency waves in the Martian magnetosphere, Astronomy & Astrophysics, 679, A78; .
  • [34] Singh, K., Varghese, S. S., Verheest, F., Kourakis, I. (2023). On the existence of subsonic solitary waves associated with reconnection jets in Earth’s magnetotail. The Astrophysical Journal, 957:96, .
  • [33] Huybrighs, H. L. F., et al (2023). Europa’s Perturbed Fields and Induced Dipole Affect Energetic Proton Depletions During Distant Alfvén Wing Flybys. Journal of Geophysical Research: Space Physics 128, Issue 9, article id. e2023JA031420.
  • [32] Skorov, Y., et al. including El-Maarry M.R. (2023). Cometary surface dust layers built out of millimetre-scale aggregates: dependence of modelled cometary gas production on the layer transport properties. Monthly Notices of the Royal Astronomical Society 522, Issue 3, 4781-4800.
  • [31] Singh, K., McKerr, M., Kourakis, I. (2023). Dust ion-acoustic dromions in Saturn’s magnetosphere. Monthly Notices of the Royal Astronomical Society 521, Issue 2, 2119-2133.
  • [30] Khayat, A.S.J., Smith, M.D., Wolff, M.J., Guzewich, S.D., Mason, E.L., Atwood, S. (2023). The Mars Atmosphere Water Ice Aerosol Climatology by MRO/CRISM: 5 Mars Years of Observations. Journal of Geophysical Research: Planets, e2023JE007761.
  • [29] Fernando, A., Wolff, M. J., Forget, F. (2023). Seasonal variations of orographic clouds on Mars with MRO/MARCI observations and the Mars Planetary Climate Model. Icarus 400, 115559. https://doi.org/10.1016/j.icarus.2023.115559.
  • [28] Dayton-Oxland, R., Huybrighs, H. L. F., Winterhalder , T. O., Mahieux, A., Goldstein, D. (2023). In-situ detection of Europa’s water plumes is harder than previously thought. Icarus 395, article id. 115488.
  • [27] Kumar, S., et al. including El-Kork (2023). Quantum scattering cross-sections for O (3 P)+ N2 collisions for planetary aeronomy. Monthly Notices of the Royal Astronomical Society526.4, 5675-5681.
  • [26] Patel, S., Harish, Patel, D., Solanki, P., El-Maarry, M.R. (2023). Hybrid Volcanic Episodes within the Orientale Basin, Moon. Remote Sensing 15, issue 7, p. 1081.
  • [25] Harish, K.B. Kimi, S.Tuhi, S. Baliyan, N. Mangold, S. Vijayan, R. El-Maarry (2023). Shallow subsurface basalt layer along Cerberus Fossae, Mars: Insights from SHARAD, HiRISE, and CRISM analysis. Icarus 391, 115343.
  • [24] Kimi, K.B., Harish, Vijayan, S. (2023). Mare Filled craters on the Moon. Icarus 390, 115298.
  • [23] Ajili, Yosra, et al. including El-Kork, and M. Gacesa (2022). Theoretical study of the CO 2–O 2 van der Waals complex: potential energy surface and applications. Physical Chemistry Chemical Physics24.47 (2022): 28984-28993.
  • [22] Boazman, S. J., Shah, J., Harish, et al (2022). The Distribution and Accessibility of Geologic Targets near the Lunar South Pole and Candidate Artemis Landing Sites. The Planetary Science Journal 3 (12), 275.
  • [21] Moreno, R., Smith, M. D., Atwood, S. A., Mason, E. L., & Nehmetallah, G. (2022). Developing Data-driven Artificial Neural Network for a High Throughput Retrieval of Aerosol Optical Depth and Surface Temperature of Mars. The Planetary Science Journal, 3(10), 230.
  • [20] Farahat, A., El-Kork, N., Singh, R. S., Jing, F. (2022). Possible Overestimation of Nitrogen Dioxide Outgassing during the Beirut 2020 Explosion. Remote Sensing 14, issue 24, p. 6377.
  • [19] Chhabra, S. Gacesa, M., Khalil M. S., Al Ghaferi, A., El-Kork, N. (2022). A quantum-mechanical investigation of O(3P) + CO scattering cross sectionsat superthermal collision energies. Monthly Notices of the Royal Astronomical Society, stac3057, .
  • [18] Varghese, S. S., Singh, K., Kourakis, I. (2022). On the morphology of electrostatic solitary waves in the Earths aurora. Scientific Reports 12,18204, https://doi.org/10.1038/s41598-022-23095-y.
  • [17] Singh K., Kakad A., Kakad, B. and I. (2022). Fluid simulation of dust-acoustic solitary waves in the presence of suprathermal particles: Application to the magnetosphere of Saturn,, Astronomy & Astrophysics (A&A), 666, A37, .
  • [16] Wolff, M. J., Fernando, A., Smith, M. D., Forget, F., Millour, E., Atwood, S. A., et (2022). Diurnal variations in the aphelion cloud belt as observed by the Emirates Exploration Imager (EXI). Geophysical Research Letters 49, e2022GL100477. .
  • [15] Lillis, R. J., et including K. Chirakkil (2022). First synoptic images of FUV discrete aurora and discovery of sinuous aurora at Mars by EMM EMUS. Geophysical Research Letters 49, e2022GL099820. .
  • [14] Chaffin, M. S., et al. including Chirakkil and S. Raghuram (2022). Patchy proton aurora at Mars: A global view of solar wind precipitation across the Martian dayside from EMM/EMUS. Geophysical Research Letters 49, e2022GL099881. .
  • [13] Smith, M. D., Badri, K., Atwood, S. A., Edwards, C. S., Christensen, P. R., Wolff, M. J., et (2022). EMIRS observations of the aphelion-season Mars atmosphere. Geophysical Research Letters 49, e2022GL099636. .
  • [12] Chaffin, M. S., Deighan, J., Jain, S., Holsclaw, G., AlMazmi, H., Chirakkil, K., et including S. Raghuram (2022). Combined analysis of hydrogen and oxygen 102.6nm emission at Mars. Geophysical Research Letters 49, e2022GL099851. .
  • [11] Fan, S, et al. including Atwood (2022). Migrating thermal tides in the Martian atmosphere during aphelion season observed by EMM/EMIRS. Geophysical Research Letters 49, e2022GL099494.
  • [10] Atwood, S.A., Smith, M.D., Badri, K., …Smith, N., El-Maarry, M.R. (2022). Diurnal variability in EMIRS daytime observations of water ice clouds during Mars aphelion-season. Geophysical Research Letters 49, e2022GL099654. .
  • [9] Raghuram, S., A. Bhardwaj, and M. Dharwan. (2022). Model for Nitric oxide and its dayglow emission in the Martian upper atmosphere using NGIMS/MAVEN measured neutral and ion densities. Icarus 382, 115010.
  • [8] Davidsson, B. et al. including R. El-Maarry (2022). CO2–driven surface changes in the Hapi region on Comet 67P/Churyumov–Gerasimenko. Monthly Notices of the Royal Astronomical Society 516, Issue 4, 6009–6040,
  • [7] Kakad, B., Kakad, A., Aravindakshan, H., Kourakis, I., (2022). Debye-scale Solitary Structures in the Martian Magnetosheath. Astrophysical Journal 934(2), 126.
  • [6] Singh, K., McKerr, M., Kourakis, I. (2022). On the stability of 2D modulated electrostatic wavepackets in non-Maxwellian dusty plasma-application in Saturn’s magnetosphere. Monthly Notices of the Royal Astronomical Society 514(1), pp. 569–577.
  • [5] Aravindakshan, H., Kakad, A., Kakad, B., Kourakis, I. (2022). Bernstein-Greene-Kruskal Ion Modes in Dusty Space Plasmas Application in Saturn’s Magnetosphere. Astrophysical Journal 936(2), 102.
  • [4] Canales, D., Howell, K.C., Fantino, E. (2022). A versatile moon-to-moon transfer design method for applications involving libration point orbits. 198, 388–402.
  • [3] Tuhi, S. Harish, et al. (2022). Ma’adim Vallis, Mars: Insights into episodic and late-stage water activity from an impact crater. Icarus 387, 115214.
  • [2] Canales, D., Howell, K.C., Fantino, E., (2021). Transfer design between neighborhoods of planetary moons in the circular restricted three-body problem: the moon-to-moon analytical transfer method, Celestial Mechanics and Dynamical Astronomy 133, 36, DOI:
  • [1] M. Semenov, El-Kork, S. N. Yurchenko, and J. Tennyson. Rovibronic spectroscopy of PN from first principles, Physical Chemistry Chemical Physics (PCCP) 23, 22057-22066, DOI: .
Books and Other Publications

Book Chapters

  • El-Maarry, M.R. (2024). Small Icy Bodies in the Solar System in Ices in the Solar System, Editors, Soare, Williams, Ahrens, Butcher, El-Maarry, 261-281, Elsevier.
  • Varghese, S. S., Kuldeep, S., Kourakis, I. (2024). Electrostatic supersolitary waves: A challenging paradigm in nonlinear plasma science and beyond – State of the art and overview of recent results. Fundamental Plasma Physics 10, id.100048.
  • Patel, S., Satyakumar, A.V., El-Maarry, M.R., Solanki, P. (2023). Compositional variations in Ohm ray crater on the farside of the Moon: Implications for mafic anomaly. Planetary & Space Science 229, article ID. 105674.
  • Omana, L., Chandran, A., John, R.E., Wilson, R., George, K.C., Unnikrishnan, N.V., Varghese, S.S., et al, (2022). Recent Advances in Polymer Nanocomposites for Electromagnetic Interference Shielding: A Review. ACS omega, 7(30), pp.25921-25947, .
  • El-Maarry, M.R., Jones, G.,H., Snodgrass, C., Tubiana C., and the Comet Interceptor Team. Comet Interceptor: A daring mission to a long period comet or an interstellar object. 72nd International Astronautical Congress (IAC), Meeting manuscript IAC-21-A7,3,2,x67120.
  • Varghese, S., Verheest, F., Kourakis, I. (2023). Comment on “Arbitrary amplitude ion-acoustic supersolitons in negative ion plasmas with two-temperature superthermal electrons” [Phys. Plasmas 29, 092101 (2022)] Physics of Plasmas 30, id.044701
  • Varghese, S. and S. Ghosh (2022). Offset Bipolar Pulses in Magnetospheric Plasma Systems, In: Banerjee, S., Saha, A. (eds) Nonlinear Dynamics and Applications. Springer Proceedings in Complexity. Springer, Cham. https://doi.org/10.1007/978-3-030-99792-2_1
  • Varghese, S.S., Singh, K., Kourakis, I. (2023). Nonlinear structures in the Martian magnetosheath, Proceedings of the 49th Eur. Phys. Soc. Conference on Plasma Physics (Bordeaux, 3-7 July 2023); paper O3.205; to appear in: Europhysics Conference Abstracts Vol. TBC; abstract available online at:
  • Singh, K., Varghese, S. S., Kourakis, I .(2023). Evolution of nonlinear electrostatic structures in the lunar wake region, Proceedings of the 49th Eur. Phys. Soc. Conference on Plasma Physics (Bordeaux, 3-7 July 2023); paper O3.204; to appear in: Europhysics Conference Abstracts Vol. TBC; abstract available online at:
Conferences

Conference Abstracts (Non-exhaustive)

  • El-Maarry, M. R., et al. (2024). The Emirates Mission to the Asteroid Belt (EMA) Targets: Geological Considerations. 55th Lunar and Planetary Science Conference, held 11-15 March, 2024 at The Woodlands, Texas/Virtual. LPI Contribution No. 3040, id.2330
  • Patel, S. M., Harish, El-Maarry, M. R. (2024). Crater Chronicles: Deciphering Mars’ Mg-Sulfate Enigma. 55th Lunar and Planetary Science Conference, held 11-15 March, 2024 at The Woodlands, Texas/Virtual. LPI Contribution No. 3040, id.2200
  • Mashal, Y. A., El-Maarry, M. R. (2024). Multi-Criteria Overlay Analysis for Identifying Preferred Exploration Zones on Mars. 55th Lunar and Planetary Science Conference, held 11-15 March, 2024 at The Woodlands, Texas/Virtual. LPI Contribution No. 3040, id.1849
  • Kuldeep, S., Varghese, S. S., Verheest, F., Kourakis, I. (2024). Subsonic Nonlinear Waves in Reconnection Jets – the Role of Suprathermal Electrons. COSPAR , Busan, S. Korea , 13-21 July 2024. Abstract-ID: D3.3-0006-24.
  • Mushtaq, H., Singh, K., Kourakis, I. (2024). Effect of Landau Damping on Electrostatic Solitary Waves in Non-Maxwellian Space Plasmas, COSPAR , Busan, S. Korea , 13-21 July 2024. Abstract-ID: D3.3-0018-24.
  • Varghese, S. S., Kuldeep, S., Verheest, F., Kourakis, I. (2024). Electrostatic Solitary Waves in Titan’s Ionospheric Plasma, COSPAR , Busan, S. Korea , 13-21 July 2024. Abstract-ID: D3.3-0007-24.
  • Maharaj, S., Bharuthram, R., Kourakis, I. (2024). Velocity Stopbands Associated with Electrostatic Solitary WavesPropagating in Space Plasma Environments with Suprathermal (Kappa-Distributed) Electrons, COSPAR , Busan, S. Korea , 13-21 July 2024. Abstract-ID: D3.3-0012-24.
  • El-Maarry, M. R., et al. (2023). Geology of the flyby targets for the Emirates Mission to the Asteroid Belt. 55th Annual Meeting of the Division for Planetary Sciences, id. 107.02. Bulletin of the American Astronomical Society, Vol. 55, No. 8 e-id 2023n8i107p02.
  • Patel, S. M., Harish, Vijayan, S., El-Maarry, M. R. (2023). Amazonian Volcanism in the Terra Sirenum region, Mars. 55th Annual Meeting of the Division for Planetary Sciences, id. 217.01. Bulletin of the American Astronomical Society, Vol. 55, No. 8 e-id 2023n8i217p01
  • S. Varghese, F. Verheest and I. Kourakis. Electrostatic Solitary Waves in Martian Plasma – on the Potential Role of Negative Ions, American Geophysical Union 2023, San Francisco, CA, USA, December 2023, Abstract ID: 1389396
  • El-Kork, Nayla, and Ashraf Farahat. “TROPOMI Monitoring of NO2 Sources and Spread during the Beirut 2020 Seaport Ammonium Nitrate Explosion.” EGU General Assembly Conference Abstracts. 2023.
  • Al Abdallah, Rania, et al. “A preliminary investigation of the spectral signatures of excited electronic states of OH in the Martian atmosphere.” EGU General Assembly Conference Abstracts. 2023.
  • Kuldeep, S., Varghese, S. S., Verheest, F., Kourakis, I. (2023). Formation of Nonlinear Waves in Terrestrial Reconnection Jets. AGU Fall Meeting, San Francisco, CA , 11-15 December 2023 Abstract submission ID# 1384688
  • S. Varghese and I. Kourakis. Significance of Kappa Distributed Electrons on Electrostatic Solitary Waves in Saturn’s Magnetosphere, URSI-GASS 2023, Sapporo, Japan, August 2023, Abstract ID: 1522
  • S. Varghese, K. Singh and I. Kourakis. Nonlinear electrostatic structures in martian magnetosheath, European Physical Society (EPS) The 49th European Conference on Plasma Physics, Bordeaux, France, July 2023, Abstract ID: EPS2023-0496
  • S. Varghese and I. Kourakis (2023). On the role of suprathermal electrons on the characteristics of electrostatic solitary waves in Saturn’s magnetosphere, European Geophysical Union-2023, Vienna, Austria, April 2023. Abstract ID: EGU23-4797
  • S. Varghese and I. Kourakis. Electrostatic Solitary Waves in Venus’ Magnetosphere, by, EPSC 2022 Euro Planetary Science Congress, Granada Spain, September 2022. Abstract ID: EPSC2022-948
  • El-Maarry, M.R. (2022). Comparative Analysis of the Glacial Landscape in Moreux Crater and a Mountain Glacier Argyre, M Lunar and Planetary Science Conference, The Woodlands TX, USA, March 2022. Abstract ID: 2493.
  • Driver, M.R. El-Maarry, B.Hubbard, S.Brough (2022), Morphological Diversity of Glacier-Like Forms on Mars. Lunar and Planetary Science Conference, The Woodlands TX, USA, March 2022. Abstract ID: 1912.
  • Al Abdallah, R., and M. Khalil. “Spectroscopic characterization of diatomic molecules in the Martian Atmosphere.” Molecular Physics14 (2022): 2204-2216.
  • M. Burley, L. L. Tornabene, G. R. Osinski, J. A. Grant, M. R. El-Maarry, and other members of the HiRISE and CaSSIS Teams (2022). Distal Flows Associated with some of the Bestpreserved Craters on Mars: Implications for Extensive Impactrelated Landscape Modification. Lunar and Planetary Science Conference, The Woodlands TX, USA, March 2022. Abstract ID: 1619.
  • M. Lisse, et al. including M. R. El-Maarry (2022). A Predicted Dearth of Hypervolatile Ices in Oort Cloud Comets. Lunar and Planetary Science Conference, The Woodlands TX, USA, March 2022. Abstract ID: 2045.
  • El-Maarry, M.R. (2021). Gamma-Ray Spectroscopy of the Martian Near-Subsurface: Key Insights and the Way Forward (invited). Abstract ID: 881054. AGU Fall Meeting, Dec. 2021, USA.
  • K. Chirakkil, et including, Susarla Raghuram, et al, (2021), Martian Outer Hot Oxygen Corona as Observed by EMM/EMUS and Comparison with a 3-D Monte Carlo Particle Transport Model, AGU Fall meeting, New Orleans, LA, 13-17, December, 2021. Abstract ID: P15F-2155
  • M Gacesa, New C+CO2 scattering cross sections and their impact on estimated photochemical escape of Carbon from Mars, AGU Fall Meeting Dec 2021
  • Fantino, E., Alkhaja, A., Khan, A., Burhani, B.M., Flores, R. (2021). From hyperbolic arrival to a tour of the Inner Large Moons of Saturn, 72nd International Astronautical Congress, October 25-29, Dubai (UAE), paper code IAC-21-C1.4.2
  • A. Atwood, M.D. Smith, C.S. Edwards, P.R. Christensen, K. Badri, S. Anwar, N. Smith, InvesWgaWon of diurnal variability in Mars atmospheric dust and water ice aerosol using the Emirates Mars Infrared Spectrometer, American Geophysical Union Fall MeeWng 2021, Abstract ID: 915090.
  • Lee, M Gacesa, M. R. Combi, V. Tenishev, S. W. Bougher, (2021). MarsHot Oxygen and Carbon Coronae and Photochemical Escape: Updated Model Parameters/ AGU Fall Meeting 2021, Dec 2021
  • Michael Chaffin, et al. including Susarla Raghuram, (2021) Retrieval of H and O abundance from EMM/EMUS observations of Lyman alpha, Lyman beta, and O I 102.6 nm observations, AGU Fall meeting, New Orleans, LA, 13-17, December, 2021. Abstract ID: P15F-2157.
  • Burhani, B.M., Alkhaja, A., Fantino, E., Flores, R., Alessi, E.M. (2021). A low-thrust lunar tour of the moons of Saturn, 72nd International Astronautical Congress, October 25-29, Dubai (UAE), paper code IAC-21-C1.5.6.
  • Deighan, M. Chaffin, K. Chirakkil et al., 3D Structure of the MarWan Inner Hot Oxygen Corona Imaged by EMM/ EMUS, AGU Fall MeeWng, Dec. 2021, USA, https:// agu.confex.com/agu/fm21/meeWngapp.cgi/Paper/ 908515
  • Lillis, J. Deighan, S. Jain, G. Holsclaw, M. Fillingim, K. Chirakkil et al., EMM EMUS ObservaWons of MarWan Nightside Discrete EUV and FUV Aurora: paUerns, variability, drivers, and new spectral features, AGU Fall MeeWng, Dec. 2021, USA, https://agu.confex.com/agu/ fm21/meeWngapp.cgi/Paper/908058
  • Malathe Khalil, Rania Al Abdallah, Marko Gacesa, Amal Al Ghaferi, and Nayla El-Kork (2021). Preliminary investigations of CO and N2 spectral signatures in the Martian atmosphere. AGU Fall meeting, New Orleans, LA, 13-17, December, 2021. Abstract ID:P15F-2156
  • Canales, D., Howell, K.C., Fantino, E. (2021). Using Finite-time Lyapunov exponent maps for planetary moon-tour design, AAS/AIAA Astrodynamics Specialist Conference, Big Sky / Virtual Conference, Aug. 9-11, paper AAS 21-625
  • Canales, D., Howell, K.C., Fantino, E., (2021). Leveraging Finite Time Lyapunov Exponent Maps to Design Tours Incorporating Three Moons, Accelerating Space Commerce, Exploration, and New Discovery conference (ASCEND) 2021, Oct. 24-26, Las Vegas, paper AIAA 2021-4154, https://ascend.aiaa.org/ ()