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Derechos | Vista previa | Fecha de publicación | Título | Autor(es) |
| ![A review of sample analysis at Mars evolved gas analysis laboratory analog work supporting the presence of perchlorates and chlorates in Gale Crater, Mars.pdf.jpg](/jspui/retrieve/712d0a7e-49f6-46c4-977e-0e8b8f88cafc/A%20review%20of%20sample%20analysis%20at%20Mars%20evolved%20gas%20analysis%20laboratory%20analog%20work%20supporting%20the%20presence%20of%20perchlorates%20and%20chlorates%20in%20Gale%20Crater%2c%20Mars.pdf.jpg) | 20-abr-2021 | A Review of Sample Analysis at Mars-Evolved Gas Analysis Laboratory Analog Work Supporting the Presence of Perchlorates and Chlorates in Gale Crater, Mars | Clark, J.; Sutter, B.; Douglas Archer, P.; Ming, D.; Rampe, E.; McAdam, A. C.; Navarro González, R.; Eigenbrode, J. L.; Glavin, D.; Zorzano, María Paz; Martín Torres, Javier; Morris, Richard V.; Tu, V.; Ralston, S. J.; Mahaffy, Paul R. |
| ![Aerosol radiative impact during the summer 2019 heatwave produced partly by an inter-continental Saharan dust outbreak, part 1, short wave dust direct radiative effect.pdf.jpg](/jspui/retrieve/f1f42adb-d8b4-4160-a11a-c67184d91673/Aerosol%20radiative%20impact%20during%20the%20summer%202019%20heatwave%20produced%20partly%20by%20an%20inter-continental%20Saharan%20dust%20outbreak%2c%20part%201%2c%20short%20wave%20dust%20direct%20radiative%20effect.pdf.jpg) | 30-abr-2021 | Aerosol radiative impact during the summer 2019 heatwave produced partly by an inter-continental Saharan dust outbreak – Part 1: Short-wave dust direct radiative effect | Córdoba Jabonero, C.; Sicard, M.; López Cayuela, M. A.; Ansmann, A.; Comerón, A.; Zorzano, María Paz; Rodríguez Gómez, A.; Muñóz Porcar, C. |
| ![acceso-restringido.pdf.jpg](/jspui/retrieve/bc42f66b-74fd-4d0c-9d91-a541366c2c11/acceso-restringido.pdf.jpg) | 15-nov-2020 | Ar+ ion bombardment dictates glycine adsorption on pyrite (1 0 0) surface: X-ray photoemission spectroscopy and DFT approach | Gálvez Martínez, S.; Escamilla Roa, E.; Zorzano, María Paz; Mateo Martí, Eva |
| ![ATMO-vent, an adapted breathing atmosphere for Covid 19 patients.pdf.jpg](/jspui/retrieve/5185b68f-7e8e-436f-a96a-b939ec9d08c5/ATMO-vent%2c%20an%20adapted%20breathing%20atmosphere%20for%20Covid%2019%20patients.pdf.jpg) | 26-sep-2020 | ATMO-vent: An adapted breathing atmosphere for COVID-19 patients | Mathanlal, Thasshwin; Nazarious, Miracle Israel; Mantas Nakhai, R.; Zorzano, María Paz |
| ![Atmospheric composition of exoplanets based on the thermal escape of gases and implications for habitability.pdf.jpg](/jspui/retrieve/b39c0be3-2891-4e1a-a3a1-f14b30afae0b/Atmospheric%20composition%20of%20exoplanets%20based%20on%20the%20thermal%20escape%20of%20gases%20and%20implications%20for%20habitability.pdf.jpg) | 9-sep-2020 | Atmospheric composition of exoplanets based on the thermal escape of gases and implications for habitability: Atmospheric composition of exoplanets | Konatham, S.; Martín Torres, Javier; Zorzano, María Paz |
| ![Characterizing Dust Radiation feedback and refining the Horizontal Resolution of the MarsWRF model down.pdf.jpg](/jspui/retrieve/153e6ed2-a931-49ea-9ccc-08a3d32b7f4b/Characterizing%20Dust%20Radiation%20feedback%20and%20refining%20the%20Horizontal%20Resolution%20of%20the%20MarsWRF%20model%20down.pdf.jpg) | 19-feb-2021 | Characterizing Dust-Radiation Feedback and Refining the Horizontal Resolution of the MarsWRF Model Down to 0.5 Degree | Gebhardt, C.; Abuelgasim, A.; Fonseca, R. M.; Martín Torres, Javier; Zorzano, María Paz |
| ![Defects on a pyrite(100) surface produce chemical evolution of flycine under inert conditions- experimental and theoretical approaches.pdf.jpg](/jspui/retrieve/16f37c5f-e241-454b-9ed7-b12ab3019119/Defects%20on%20a%20pyrite%28100%29%20surface%20produce%20chemical%20evolution%20of%20flycine%20under%20inert%20conditions-%20experimental%20and%20theoretical%20approaches.pdf.jpg) | 10-oct-2019 | Defects on a pyrite(100) surface produce chemical evolution of glycine under inert conditions: experimental and theoretical approaches | Gálvez Martínez, S.; Escamilla Roa, E.; Zorzano, María Paz; Mateo Martí, Eva |
| ![Development of a wind retrieval method for los speed low pressure flows for ExoMars.pdf.jpg](/jspui/retrieve/6df7ac28-43b3-4d8a-89c7-aba976f02748/Development%20of%20a%20wind%20retrieval%20method%20for%20los%20speed%20low%20pressure%20flows%20for%20ExoMars.pdf.jpg) | 5-nov-2020 | Development of a wind retrieval method for low-speed low-pressure flows for ExoMars | Soria Salinas, Á.; Zorzano, María Paz; Mantas Nakhai, R.; Martín Torres, Javier |
| ![acceso-restringido.pdf.jpg](/jspui/retrieve/f5d7f7e1-6a0b-4f4d-8bea-5c14923b7253/acceso-restringido.pdf.jpg) | 15-may-2020 | DFT study of the reduction reaction of calcium perchlorate on olivine surface: Implications to formation of Martian's regolith | Escamilla Roa, E.; Zorzano, María Paz; Martín Torres, Javier; Hernández Laguna, A.; Sainz Díaz, C. I. |
| ![Fully interactive and refined resolution sumulations of the Martian dust cycle by the MarsWRF model.pdf.jpg](/jspui/retrieve/45798e86-62c4-463e-b06e-8a473685a204/Fully%20interactive%20and%20refined%20resolution%20sumulations%20of%20the%20Martian%20dust%20cycle%20by%20the%20MarsWRF%20model.pdf.jpg) | 25-ago-2020 | Fully Interactive and Refined Resolution Simulations of the Martian Dust Cycle by the MarsWRF Model | Gebhardt, C.; Abuelgasim, A.; Fonseca, R. M.; Martín Torres, Javier; Zorzano, María Paz |
| ![acceso-restringido.pdf.jpg](/jspui/retrieve/f0ebcda8-7ded-43b4-b66e-8cf22025dcba/acceso-restringido.pdf.jpg) | 28-jul-2021 | Measuring electrical conductivity to study the formation of brines under martian conditions | Nazarious, Miracle Israel; Ramachandran, A. V.; Zorzano, María Paz; Martín Torres, Javier |
| ![Supplement Metabolt, an in.situ instrument to characterize the metabolic activity of microbial soil ecosystems using electrochemical and gaseous signatures.pdf.jpg](/jspui/retrieve/77aa9cfb-7024-4400-a3c0-9bc9ef13611d/Supplement%20Metabolt%2c%20an%20in.situ%20instrument%20to%20characterize%20the%20metabolic%20activity%20of%20microbial%20soil%20ecosystems%20using%20electrochemical%20and%20gaseous%20signatures.pdf.jpg) | 11-ago-2020 | Metabolt: An In-Situ Instrument to Characterize the Metabolic Activity of Microbial Soil Ecosystems Using Electrochemical and Gaseous Signatures | Nazarious, Miracle Israel; Zorzano, María Paz; Martín Torres, Javier |
| ![1-s2.0-S246806722030078X-main.pdf.jpg](/jspui/retrieve/1ce495c7-2287-4549-9f0f-78effe57fcad/1-s2.0-S246806722030078X-main.pdf.jpg) | 12-abr-2021 | PACKMAN – A portable instrument to investigate space weather | Mathanlal, Thasshwin; Vakkada Ramachandran, A.; Zorzano, María Paz; Martín Torres, Javier |
| ![Prebiotic chemistry in neutral-reduce-alkaline gas-liquid interfaces.pdf.jpg](/jspui/retrieve/c2245f0b-9f78-4c5f-9bd5-79ecf40636ac/Prebiotic%20chemistry%20in%20neutral-reduce-alkaline%20gas-liquid%20interfaces.pdf.jpg) | 13-feb-2019 | Prebiotic chemistry in neutral/reduced-alkaline gas-liquid interfaces | Mompeán, Cristina; Roig Marín-Yaseli, Margarita; Espigares, Patricia; González Toril, Elena; Zorzano, María Paz; Ruiz Bermejo, Marta |
| ![Pressure optimized powEred respirator (proper)- A miniaturized wearable cleanroom and biosafety system for aerially transmitted viral infections such as COVID 19.pdf.jpg](/jspui/retrieve/9d6ac793-465e-4a52-83b0-65b5d1910346/Pressure%20optimized%20powEred%20respirator%20%28proper%29-%20A%20miniaturized%20wearable%20cleanroom%20and%20biosafety%20system%20for%20aerially%20transmitted%20viral%20infections%20such%20as%20COVID%2019.pdf.jpg) | 6-oct-2020 | Pressure Optimized PowEred Respirator (PROPER): A miniaturized wearable cleanroom and biosafety system for aerially transmitted viral infections such as COVID-19 | Nazarious, Miracle Israel; Mathanlal, Thasshwin; Zorzano, María Paz; Martín Torres, Javier |
| ![Quantifiying the Congruence between Air and Land Surface Temperatures.pdf.jpg](/jspui/retrieve/0e2f7f86-7569-42a0-b7de-59ea0b435d99/Quantifiying%20the%20Congruence%20between%20Air%20and%20Land%20Surface%20Temperatures.pdf.jpg) | 4-dic-2019 | Quantifying the Congruence between Air and Land Surface Temperatures for Various Climatic and Elevation Zones of Western Himalaya | Singh, S.; Bhardwaj, A.; Singh, A.; Sam, L.; Shekhar, M.; Martín Torres, Javier; Zorzano, María Paz |
| ![Seasonal variations in Atmospheric composition as measured in Gale Crater Mars.pdf.jpg](/jspui/retrieve/f57df03f-48ae-4980-aa10-5b0892028fe2/Seasonal%20variations%20in%20Atmospheric%20composition%20as%20measured%20in%20Gale%20Crater%20Mars.pdf.jpg) | 12-nov-2019 | Seasonal Variations in Atmospheric Composition as Measured in Gale Crater, Mars | Trainer, M. G.; Wong, M. H.; McConnochie, T. H.; Franz, H. B.; Atreya, S. K.; Conrad, Pamela G.; Lefèvre, F.; Mahaffy, Paul R.; Malespin, C. A.; Manning, H. L. K.; Martín Torres, Javier; Martínez, G. M.; McKay, C. P.; Navarro González, R.; Vicente Retortillo, Á.; Webster, C. R.; Zorzano, María Paz |
| ![Small Lava caves as possible exploratory targets on Mars- analogies drawn from UAV imaging of an icelandic lava field.pdf.jpg](/jspui/retrieve/577e2743-9a9e-436e-89ca-a682903c8b39/Small%20Lava%20caves%20as%20possible%20exploratory%20targets%20on%20Mars-%20analogies%20drawn%20from%20UAV%20imaging%20of%20an%20icelandic%20lava%20field.pdf.jpg) | 19-jun-2020 | Small lava caves as possible exploratory targets on Mars: Analogies drawn from UAV imaging of an Icelandic lava field | Sam, Lydia; Bhardwaj, Anshuman; Singh, Shaktiman; Martín Torres, Javier; Zorzano, María Paz; Ramírez Lúque, Juan Antonio |
| ![Space Environmental Chamber for Planetary Studies.pdf.jpg](/jspui/retrieve/812d9f34-3567-4c1b-8c89-0776abe9e37e/Space%20Environmental%20Chamber%20for%20Planetary%20Studies.pdf.jpg) | 18-jul-2020 | Space Environmental Chamber for Planetary Studies | Ramachandran, Abhilash Vakkada; Nazarious, Miracle Israel; Mathanlal, Thasshwin; Zorzano, María Paz; Martín Torres, Javier |
| ![subsurface-robotic-exploration-for-geomorphology-astrobiology-and-mining-during-minar6-campaign-boulby-mine-uk-part-i-rover-development.pdf.jpg](/jspui/retrieve/6ec1b4ee-ab95-43da-aed8-a95d38653515/subsurface-robotic-exploration-for-geomorphology-astrobiology-and-mining-during-minar6-campaign-boulby-mine-uk-part-i-rover-development.pdf.jpg) | 5-abr-2020 | Subsurface robotic exploration for geomorphology, astrobiology and mining during MINAR6 campaign, Boulby Mine, UK: part I (Rover development). | Mathanlal, Thasshwin; Bhardwaj, A.; Vakkada Ramachandran, A.; Zorzano, María Paz; Martín Torres, Javier; Cockell, C. S.; Edwards, T. |