836 results on '"Jones, Geraint"'
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2. The PLATO Mission
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Rauer, Heike, Aerts, Conny, Cabrera, Juan, Deleuil, Magali, Erikson, Anders, Gizon, Laurent, Goupil, Mariejo, Heras, Ana, Lorenzo-Alvarez, Jose, Marliani, Filippo, Martin-Garcia, Cesar, Mas-Hesse, J. Miguel, O'Rourke, Laurence, Osborn, Hugh, Pagano, Isabella, Piotto, Giampaolo, Pollacco, Don, Ragazzoni, Roberto, Ramsay, Gavin, Udry, Stéphane, Appourchaux, Thierry, Benz, Willy, Brandeker, Alexis, Güdel, Manuel, Janot-Pacheco, Eduardo, Kabath, Petr, Kjeldsen, Hans, Min, Michiel, Santos, Nuno, Smith, Alan, Suarez, Juan-Carlos, Werner, Stephanie C., Aboudan, Alessio, Abreu, Manuel, Acuña, Lorena, Adams, Moritz, Adibekyan, Vardan, Affer, Laura, Agneray, François, Agnor, Craig, Børsen-Koch, Victor Aguirre, Ahmed, Saad, Aigrain, Suzanne, Al-Bahlawan, Ashraf, Gil, M de los Angeles Alcacera, Alei, Eleonora, Alencar, Silvia, Alexander, Richard, Alfonso-Garzón, Julia, Alibert, Yann, Prieto, Carlos Allende, Almeida, Leonardo, Sobrino, Roi Alonso, Altavilla, Giuseppe, Althaus, Christian, Trujillo, Luis Alonso Alvarez, Amarsi, Anish, Eiff, Matthias Ammler-von, Amôres, Eduardo, Andrade, Laerte, Antoniadis-Karnavas, Alexandros, António, Carlos, del Moral, Beatriz Aparicio, Appolloni, Matteo, Arena, Claudio, Armstrong, David, Aliaga, Jose Aroca, Asplund, Martin, Audenaert, Jeroen, Auricchio, Natalia, Avelino, Pedro, Baeke, Ann, Baillié, Kevin, Balado, Ana, Balestra, Andrea, Ball, Warrick, Ballans, Herve, Ballot, Jerome, Barban, Caroline, Barbary, Gaële, Barbieri, Mauro, Forteza, Sebastià Barceló, Barker, Adrian, Barklem, Paul, Barnes, Sydney, Navascues, David Barrado, Barragan, Oscar, Baruteau, Clément, Basu, Sarbani, Baudin, Frederic, Baumeister, Philipp, Bayliss, Daniel, Bazot, Michael, Beck, Paul G., Bedding, Tim, Belkacem, Kevin, Bellinger, Earl, Benatti, Serena, Benomar, Othman, Bérard, Diane, Bergemann, Maria, Bergomi, Maria, Bernardo, Pierre, Biazzo, Katia, Bignamini, Andrea, Bigot, Lionel, Billot, Nicolas, Binet, Martin, Biondi, David, Biondi, Federico, Birch, Aaron C., Bitsch, Bertram, Ceballos, Paz Victoria Bluhm, Bódi, Attila, Bognár, Zsófia, Boisse, Isabelle, Bolmont, Emeline, Bonanno, Alfio, Bonavita, Mariangela, Bonfanti, Andrea, Bonfils, Xavier, Bonito, Rosaria, Bonomo, Aldo Stefano, Börner, Anko, Saikia, Sudeshna Boro, Martín, Elisa Borreguero, Borsa, Francesco, Borsato, Luca, Bossini, Diego, Bouchy, Francois, Boué, Gwenaël, Boufleur, Rodrigo, Boumier, Patrick, Bourrier, Vincent, Bowman, Dominic M., Bozzo, Enrico, Bradley, Louisa, Bray, John, Bressan, Alessandro, Breton, Sylvain, Brienza, Daniele, Brito, Ana, Brogi, Matteo, Brown, Beverly, Brown, David, Brun, Allan Sacha, Bruno, Giovanni, Bruns, Michael, Buchhave, Lars A., Bugnet, Lisa, Buldgen, Gaël, Burgess, Patrick, Busatta, Andrea, Busso, Giorgia, Buzasi, Derek, Caballero, José A., Cabral, Alexandre, Calderone, Flavia, Cameron, Robert, Cameron, Andrew, Campante, Tiago, Martins, Bruno Leonardo Canto, Cara, Christophe, Carone, Ludmila, Carrasco, Josep Manel, Casagrande, Luca, Casewell, Sarah L., Cassisi, Santi, Castellani, Marco, Castro, Matthieu, Catala, Claude, Fernández, Irene Catalán, Catelan, Márcio, Cegla, Heather, Cerruti, Chiara, Cessa, Virginie, Chadid, Merieme, Chaplin, William, Charpinet, Stephane, Chiappini, Cristina, Chiarucci, Simone, Chiavassa, Andrea, Chinellato, Simonetta, Chirulli, Giovanni, Christensen-Dalsgaard, Jorgen, Church, Ross, Claret, Antonio, Clarke, Cathie, Claudi, Riccardo, Clermont, Lionel, Coelho, Hugo, Coelho, Joao, Cogato, Fabrizio, Colomé, Josep, Condamin, Mathieu, Conseil, Simon, Corbard, Thierry, Correia, Alexandre C. M., Corsaro, Enrico, Cosentino, Rosario, Costes, Jean, Cottinelli, Andrea, Covone, Giovanni, Creevey, Orlagh L., Crida, Aurelien, Csizmadia, Szilard, Cunha, Margarida, Curry, Patrick, da Costa, Jefferson, da Silva, Francys, Dalal, Shweta, Damasso, Mario, Damiani, Cilia, Damiani, Francesco, Chagas, Maria Liduina das, Davies, Melvyn, Davies, Guy, Davies, Ben, Davison, Gary, de Almeida, Leandro, de Angeli, Francesca, de Barros, Susana Cristina Cabral, Leão, Izan de Castro, de Freitas, Daniel Brito, de Freitas, Marcia Cristina, De Martino, Domitilla, de Medeiros, José Renan, de Paula, Luiz Alberto, de Plaa, Jelle, De Ridder, Joris, Deal, Morgan, Decin, Leen, Deeg, Hans, Degl'Innocenti, Scilla, Deheuvels, Sebastien, del Burgo, Carlos, Del Sordo, Fabio, Delgado-Mena, Elisa, Demangeon, Olivier, Denk, Tilmann, Derekas, Aliz, Desidera, Silvano, Dexet, Marc, Di Criscienzo, Marcella, Di Giorgio, Anna Maria, Di Mauro, Maria Pia, Rial, Federico Jose Diaz, Díaz-García, José-Javier, Dima, Marco, 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G., Mesa, Rosario Sanz, Sarro, Luis Manuel, Scandariato, Gaetano, Schäfer, Martin, Schlafly, Edward, Schmider, François-Xavier, Schneider, Jean, Schou, Jesper, Schunker, Hannah, Schwarzkopf, Gabriel Jörg, Serenelli, Aldo, Seynaeve, Dries, Shan, Yutong, Shapiro, Alexander, Shipman, Russel, Sicilia, Daniela, Sanmartin, Maria Angeles Sierra, Sigot, Axelle, Silliman, Kyle, Silvotti, Roberto, Simon, Attila E., Napoli, Ricardo Simoyama, Skarka, Marek, Smalley, Barry, Smiljanic, Rodolfo, Smit, Samuel, Smith, Alexis, Smith, Leigh, Snellen, Ignas, Sódor, Ádám, Sohl, Frank, Solanki, Sami K., Sortino, Francesca, Sousa, Sérgio, Southworth, John, Souto, Diogo, Sozzetti, Alessandro, Stamatellos, Dimitris, Stassun, Keivan, Steller, Manfred, Stello, Dennis, Stelzer, Beate, Stiebeler, Ulrike, Stokholm, Amalie, Storelvmo, Trude, Strassmeier, Klaus, Strøm, Paul Anthony, Strugarek, Antoine, Sulis, Sophia, Švanda, Michal, Szabados, László, Szabó, Róbert, Szabó, Gyula M., Szuszkiewicz, Ewa, Talens, Geert Jan, Teti, Daniele, Theisen, Tom, Thévenin, Frédéric, Thoul, Anne, Tiphene, Didier, Titz-Weider, Ruth, Tkachenko, Andrew, Tomecki, Daniel, Tonfat, Jorge, Tosi, Nicola, Trampedach, Regner, Traven, Gregor, Triaud, Amaury, Trønnes, Reidar, Tsantaki, Maria, Tschentscher, Matthias, Turin, Arnaud, Tvaruzka, Adam, Ulmer, Bernd, Ulmer-Moll, Solène, Ulusoy, Ceren, Umbriaco, Gabriele, Valencia, Diana, Valentini, Marica, Valio, Adriana, Guijarro, Ángel Luis Valverde, Van Eylen, Vincent, Van Grootel, Valerie, van Kempen, Tim A., Van Reeth, Timothy, Van Zelst, Iris, Vandenbussche, Bart, Vasiliou, Konstantinos, Vasilyev, Valeriy, de Mascarenhas, David Vaz, Vazan, Allona, Nunez, Marina Vela, Velloso, Eduardo Nunes, Ventura, Rita, Ventura, Paolo, Venturini, Julia, Trallero, Isabel Vera, Veras, Dimitri, Verdugo, Eva, Verma, Kuldeep, Vibert, Didier, Martinez, Tobias Vicanek, Vida, Krisztián, Vigan, Arthur, Villacorta, Antonio, Villaver, Eva, Aparicio, Marcos Villaverde, Viotto, Valentina, Vorobyov, Eduard, Vorontsov, Sergey, Wagner, Frank W., Walloschek, Thomas, Walton, Nicholas, Walton, Dave, Wang, Haiyang, Waters, Rens, Watson, Christopher, Wedemeyer, Sven, Weeks, Angharad, Weingril, Jörg, Weiss, Annita, Wendler, Belinda, West, Richard, Westerdorff, Karsten, Westphal, Pierre-Amaury, Wheatley, Peter, White, Tim, Whittaker, Amadou, Wickhusen, Kai, Wilson, Thomas, Windsor, James, Winter, Othon, Winther, Mark Lykke, Winton, Alistair, Witteck, Ulrike, Witzke, Veronika, Woitke, Peter, Wolter, David, Wuchterl, Günther, Wyatt, Mark, Yang, Dan, Yu, Jie, Sanchez, Ricardo Zanmar, Osorio, María Rosa Zapatero, Zechmeister, Mathias, Zhou, Yixiao, Ziemke, Claas, and Zwintz, Konstanze
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Astrophysics - Instrumentation and Methods for Astrophysics ,Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Solar and Stellar Astrophysics - Abstract
PLATO (PLAnetary Transits and Oscillations of stars) is ESA's M3 mission designed to detect and characterise extrasolar planets and perform asteroseismic monitoring of a large number of stars. PLATO will detect small planets (down to <2 R_(Earth)) around bright stars (<11 mag), including terrestrial planets in the habitable zone of solar-like stars. With the complement of radial velocity observations from the ground, planets will be characterised for their radius, mass, and age with high accuracy (5 %, 10 %, 10 % for an Earth-Sun combination respectively). PLATO will provide us with a large-scale catalogue of well-characterised small planets up to intermediate orbital periods, relevant for a meaningful comparison to planet formation theories and to better understand planet evolution. It will make possible comparative exoplanetology to place our Solar System planets in a broader context. In parallel, PLATO will study (host) stars using asteroseismology, allowing us to determine the stellar properties with high accuracy, substantially enhancing our knowledge of stellar structure and evolution. The payload instrument consists of 26 cameras with 12cm aperture each. For at least four years, the mission will perform high-precision photometric measurements. Here we review the science objectives, present PLATO's target samples and fields, provide an overview of expected core science performance as well as a description of the instrument and the mission profile at the beginning of the serial production of the flight cameras. PLATO is scheduled for a launch date end 2026. This overview therefore provides a summary of the mission to the community in preparation of the upcoming operational phases.
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- 2024
3. Imaging Polarimetry of Comet 67P/Churyumov-Gerasimenko: Homogeneous Distribution of Polarisation and its Implications
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Gray, Zuri, Bagnulo, Stefano, Boehnhardt, Hermann, Borisov, Galin, Jones, Geraint H., Kolokolova, Ludmilla, Kwon, Yuna G., Moreno, Fernando, Muñoz, Olga, Nežič, Rok, and Snodgrass, Colin
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Astrophysics - Earth and Planetary Astrophysics - Abstract
Comet 67P/Churyumov-Gerasimenko (67P) become observable for the first time in 2021 since the Rosetta rendezvous in 2014--16. Here, we present pre-perihelion polarimetric measurements of 67P from 2021 performed with the Very Large Telescope (VLT), as well as post-perihelion polarimetric measurements from 2015--16 obtained with the VLT and the William Herschel Telescope (WHT). This new data covers a phase angle range of ~4-50{\deg} and presents polarimetric measurements of unprecedentedly high S/N ratio. Complementing previous measurements, the polarimetric phase curve of 67P resembles that of other Jupiter family comets and high-polarisation, dusty comets. Comparing pre- and post-perihelion data sets, we find only a marginal difference between the polarimetric phase curves. In our imaging maps, we detect various linear structures produced by the dust in the inner coma of the comet. Despite this, we find a homogeneous spread of polarisation around the photocentre throughout the coma and tail, in contrast to previous studies. Finally, we explore the consequences of image misalignments on both polarimetric maps and aperture polarimetric measurements., Comment: 15 pages, 10 figures, 2 tables. Accepted for publication in MNRAS, May 13th 2024
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- 2024
4. Polarimetry of Didymos-Dimorphos: Unexpected Long-Term Effects of the DART Impact
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Gray, Zuri, Bagnulo, Stefano, Granvik, Mikael, Cellino, Alberto, Jones, Geraint H., Kolokolova, Ludmilla, Moreno, Fernando, Muinonen, Karri, Muñoz, Olga, Opitom, Cyrielle, Penttilä, Antti, and Snodgrass, Colin
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Astrophysics - Earth and Planetary Astrophysics - Abstract
We have monitored the Didymos-Dimorphos binary system in imaging polarimetric mode before and after the impact from the Double Asteroid Redirection Test (DART) mission. A previous spectropolarimetric study showed that the impact caused a dramatic drop in polarisation. Our longer-term monitoring shows that the polarisation of the post-impact system remains lower than the pre-impact system even months after the impact, suggesting that some fresh ejecta material remains in the system at the time of our observations, either in orbit or settled on the surface. The slope of the post-impact polarimetric curve is shallower than that of the pre-impact system, implying an increase in albedo of the system. This suggests that the ejected material is composed of smaller and possibly brighter particles than those present on the pre-impact surface of the asteroid. Our polarimetric maps show that the dust cloud ejected immediately after the impact polarises light in a spatially uniform manner (and at a lower level than pre-impact). Later maps exhibit a gradient in polarisation between the photocentre (which probes the asteroid surface) and the surrounding cloud and tail. The polarisation occasionally shows some small-scale variations, the source of which is not yet clear. The polarimetric phase curve of Didymos-Dimorphos resembles that of the S-type asteroid class., Comment: Accepted for publication in PSJ. 22 pages, 10 figures, 2 tables
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- 2023
5. Jupiter Science Enabled by ESA's Jupiter Icy Moons Explorer
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Fletcher, Leigh N., Cavalié, Thibault, Grassi, Davide, Hueso, Ricardo, Lara, Luisa M., Kaspi, Yohai, Galanti, Eli, Greathouse, Thomas K., Molyneux, Philippa M., Galand, Marina, Vallat, Claire, Witasse, Olivier, Lorente, Rosario, Hartogh, Paul, Poulet, François, Langevin, Yves, Palumbo, Pasquale, Gladstone, G. Randall, Retherford, Kurt D., Dougherty, Michele K., Wahlund, Jan-Erik, Barabash, Stas, Iess, Luciano, Bruzzone, Lorenzo, Hussmann, Hauke, Gurvits, Leonid I., Santolik, Ondřej, Kolmasova, Ivana, Fischer, Georg, Müller-Wodarg, Ingo, Piccioni, Giuseppe, Fouchet, Thierry, Gérard, Jean-Claude, Sánchez-Lavega, Agustin, Irwin, Patrick G. J., Grodent, Denis, Altieri, Francesca, Mura, Alessandro, Drossart, Pierre, Kammer, Josh, Giles, Rohini, Cazaux, Stéphanie, Jones, Geraint, Smirnova, Maria, Lellouch, Emmanuel, Medvedev, Alexander S., Moreno, Raphael, Rezac, Ladislav, Coustenis, Athena, and Costa, Marc
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Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Instrumentation and Methods for Astrophysics - Abstract
ESA's Jupiter Icy Moons Explorer (JUICE) will provide a detailed investigation of the Jovian system in the 2030s, combining a suite of state-of-the-art instruments with an orbital tour tailored to maximise observing opportunities. We review the Jupiter science enabled by the JUICE mission, building on the legacy of discoveries from the Galileo, Cassini, and Juno missions, alongside ground- and space-based observatories. We focus on remote sensing of the climate, meteorology, and chemistry of the atmosphere and auroras from the cloud-forming weather layer, through the upper troposphere, into the stratosphere and ionosphere. The Jupiter orbital tour provides a wealth of opportunities for atmospheric and auroral science: global perspectives with its near-equatorial and inclined phases, sampling all phase angles from dayside to nightside, and investigating phenomena evolving on timescales from minutes to months. The remote sensing payload spans far-UV spectroscopy (50-210 nm), visible imaging (340-1080 nm), visible/near-infrared spectroscopy (0.49-5.56 $\mu$m), and sub-millimetre sounding (near 530-625\,GHz and 1067-1275\,GHz). This is coupled to radio, stellar, and solar occultation opportunities to explore the atmosphere at high vertical resolution; and radio and plasma wave measurements of electric discharges in the Jovian atmosphere and auroras. Cross-disciplinary scientific investigations enable JUICE to explore coupling processes in giant planet atmospheres, to show how the atmosphere is connected to (i) the deep circulation and composition of the hydrogen-dominated interior; and (ii) to the currents and charged particle environments of the external magnetosphere. JUICE will provide a comprehensive characterisation of the atmosphere and auroras of this archetypal giant planet., Comment: 83 pages, 24 figures, accepted to Space Science Reviews special issue on ESA's JUICE mission
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- 2023
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6. Determining the dust environment of an unknown comet for a spacecraft fly-by: The case of ESA's Comet Interceptor mission
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Marschall, Raphael, Zakharov, Vladimir, Tubiana, Cecilia, Kelley, Michael S. P., van Damme, Carlos Corral, Snodgrass, Colin, Jones, Geraint H., Ivanovski, Stavro L., Postberg, Frank, Della Corte, Vincenzo, Vincent, Jean-Baptiste, Muñoz, Olga, La Forgia, Fiorangela, Levasseur-Regourd, Anny-Chantal, and Team, the Comet Interceptor
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Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Instrumentation and Methods for Astrophysics - Abstract
We present a statistical approach to assess the dust environment for a yet unknown comet (or when its parameters are known only with large uncertainty). This is of particular importance for missions such as ESA's Comet Interceptor mission to a dynamically new comet. We find that the lack of knowledge of any particular comet results in very large uncertainties (~3 orders of magnitude) for the dust densities within the coma. The most sensitive parameters affecting the dust densities are the dust size distribution, the dust production rate and coma brightness, often quantified by Af$\rho$. Further, the conversion of a coma's brightness (Af$\rho$) to a dust production rate is poorly constrained. The dust production rate can only be estimated down to an uncertainty of ~0.5 orders of magnitude if the dust size distribution is known in addition to the Af$\rho$. To accurately predict the dust environment of a poorly known comet, a statistical approach as we propose here needs to be taken to properly reflect the uncertainties. This can be done by calculating an ensemble of comae covering all possible combinations within parameter space as shown in this work., Comment: 27 pages, 15 figures, data available under https://www.doi.org/10.5281/zenodo.6906815
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- 2022
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7. The Comet Interceptor Mission
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Jones, Geraint H., Snodgrass, Colin, Tubiana, Cecilia, Küppers, Michael, Kawakita, Hideyo, Lara, Luisa M., Agarwal, Jessica, André, Nicolas, Attree, Nicholas, Auster, Uli, Bagnulo, Stefano, Bannister, Michele, Beth, Arnaud, Bowles, Neil, Coates, Andrew, Colangeli, Luigi, Corral van Damme, Carlos, Da Deppo, Vania, De Keyser, Johan, Della Corte, Vincenzo, Edberg, Niklas, El-Maarry, Mohamed Ramy, Faggi, Sara, Fulle, Marco, Funase, Ryu, Galand, Marina, Goetz, Charlotte, Groussin, Olivier, Guilbert-Lepoutre, Aurélie, Henri, Pierre, Kasahara, Satoshi, Kereszturi, Akos, Kidger, Mark, Knight, Matthew, Kokotanekova, Rosita, Kolmasova, Ivana, Kossacki, Konrad, Kührt, Ekkehard, Kwon, Yuna, La Forgia, Fiorangela, Levasseur-Regourd, Anny-Chantal, Lippi, Manuela, Longobardo, Andrea, Marschall, Raphael, Morawski, Marek, Muñoz, Olga, Näsilä, Antti, Nilsson, Hans, Opitom, Cyrielle, Pajusalu, Mihkel, Pommerol, Antoine, Prech, Lubomir, Rando, Nicola, Ratti, Francesco, Rothkaehl, Hanna, Rotundi, Alessandra, Rubin, Martin, Sakatani, Naoya, Sánchez, Joan Pau, Simon Wedlund, Cyril, Stankov, Anamarija, Thomas, Nicolas, Toth, Imre, Villanueva, Geronimo, Vincent, Jean-Baptiste, Volwerk, Martin, Wurz, Peter, Wielders, Arno, Yoshioka, Kazuo, Aleksiejuk, Konrad, Alvarez, Fernando, Amoros, Carine, Aslam, Shahid, Atamaniuk, Barbara, Baran, Jędrzej, Barciński, Tomasz, Beck, Thomas, Behnke, Thomas, Berglund, Martin, Bertini, Ivano, Bieda, Marcin, Binczyk, Piotr, Busch, Martin-Diego, Cacovean, Andrei, Capria, Maria Teresa, Carr, Chris, Castro Marín, José María, Ceriotti, Matteo, Chioetto, Paolo, Chuchra-Konrad, Agata, Cocola, Lorenzo, Colin, Fabrice, Crews, Chiaki, Cripps, Victoria, Cupido, Emanuele, Dassatti, Alberto, Davidsson, Björn J. R., De Roche, Thierry, Deca, Jan, Del Togno, Simone, Dhooghe, Frederik, Donaldson Hanna, Kerri, Eriksson, Anders, Fedorov, Andrey, Fernández-Valenzuela, Estela, Ferretti, Stefano, Floriot, Johan, Frassetto, Fabio, Fredriksson, Jesper, Garnier, Philippe, Gaweł, Dorota, Génot, Vincent, Gerber, Thomas, Glassmeier, Karl-Heinz, Granvik, Mikael, Grison, Benjamin, Gunell, Herbert, Hachemi, Tedjani, Hagen, Christian, Hajra, Rajkumar, Harada, Yuki, Hasiba, Johann, Haslebacher, Nico, Herranz De La Revilla, Miguel Luis, Hestroffer, Daniel, Hewagama, Tilak, Holt, Carrie, Hviid, Stubbe, Iakubivskyi, Iaroslav, Inno, Laura, Irwin, Patrick, Ivanovski, Stavro, Jansky, Jiri, Jernej, Irmgard, Jeszenszky, Harald, Jimenéz, Jaime, Jorda, Laurent, Kama, Mihkel, Kameda, Shingo, Kelley, Michael S. P., Klepacki, Kamil, Kohout, Tomáš, Kojima, Hirotsugu, Kowalski, Tomasz, Kuwabara, Masaki, Ladno, Michal, Laky, Gunter, Lammer, Helmut, Lan, Radek, Lavraud, Benoit, Lazzarin, Monica, Le Duff, Olivier, Lee, Qiu-Mei, Lesniak, Cezary, Lewis, Zoe, Lin, Zhong-Yi, Lister, Tim, Lowry, Stephen, Magnes, Werner, Markkanen, Johannes, Martinez Navajas, Ignacio, Martins, Zita, Matsuoka, Ayako, Matyjasiak, Barbara, Mazelle, Christian, Mazzotta Epifani, Elena, Meier, Mirko, Michaelis, Harald, Micheli, Marco, Migliorini, Alessandra, Millet, Aude-Lyse, Moreno, Fernando, Mottola, Stefano, Moutounaick, Bruno, Muinonen, Karri, Müller, Daniel R., Murakami, Go, Murata, Naofumi, Myszka, Kamil, Nakajima, Shintaro, Nemeth, Zoltan, Nikolajev, Artiom, Nordera, Simone, Ohlsson, Dan, Olesk, Aire, Ottacher, Harald, Ozaki, Naoya, Oziol, Christophe, Patel, Manish, Savio Paul, Aditya, Penttilä, Antti, Pernechele, Claudio, Peterson, Joakim, Petraglio, Enrico, Piccirillo, Alice Maria, Plaschke, Ferdinand, Polak, Szymon, Postberg, Frank, Proosa, Herman, Protopapa, Silvia, Puccio, Walter, Ranvier, Sylvain, Raymond, Sean, Richter, Ingo, Rieder, Martin, Rigamonti, Roberto, Ruiz Rodriguez, Irene, Santolik, Ondrej, Sasaki, Takahiro, Schrödter, Rolf, Shirley, Katherine, Slavinskis, Andris, Sodor, Balint, Soucek, Jan, Stephenson, Peter, Stöckli, Linus, Szewczyk, Paweł, Troznai, Gabor, Uhlir, Ludek, Usami, Naoto, Valavanoglou, Aris, Vaverka, Jakub, Wang, Wei, Wang, Xiao-Dong, Wattieaux, Gaëtan, Wieser, Martin, Wolf, Sebastian, Yano, Hajime, Yoshikawa, Ichiro, Zakharov, Vladimir, Zawistowski, Tomasz, Zuppella, Paola, Rinaldi, Giovanna, and Ji, Hantao
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- 2024
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8. ESA F-Class Comet Interceptor: Trajectory Design to Intercept a Yet-to-be-discovered Comet
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Sánchez, Joan Pau, Morante, David, Hermosin, Pablo, Ranuschio, Daniel, Estalella, Alvaro, Viera, Dayana, Centuori, Simone, Jones, Geraint, Snodgrass, Colin, Levasseur-Regourd, Anny Chantal, and Tubiana, Cecilia
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Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Instrumentation and Methods for Astrophysics ,Physics - Space Physics - Abstract
Comet Interceptor (Comet-I) was selected in June 2019 as the first ESA F-Class mission. In 2029+, Comet-I will hitch a ride to a Sun-Earth L2 quasi-halo orbit, as a co-passenger of ESA's M4 ARIEL mission. It will then remain idle at the L2 point until the right departure conditions are met to intercept a yet-to-be-discovered long period comet (or interstellar body). The fact that Comet-I target is thus unidentified becomes a key aspect of the trajectory and mission design. The paper first analyses the long period comet population and concludes that 2 to 3 feasible targets a year should be expected. Yet, Comet-I will only be able to access some of these, depending mostly on the angular distance between the Earth and the closest nodal point to the Earth's orbit radius. A preliminary analysis of the transfer trajectories has been performed to assess the trade-off between the accessible region and the transfer time for a given spacecraft design, including a fully chemical, a fully electric and a hybrid propulsion system. The different Earth escape options also play a paramount role to enhance Comet-I capability to reach possible long period comet targets. Particularly, Earth-leading intercept configurations have the potential to benefit the most from lunar swing-by departures. Finally, a preliminary Monte Carlo analysis shows that Comet-I has a 95 to 99% likelihood of successfully visit a pristine newly-discovered long period comet in less than 6 years of mission timespan., Comment: Preprint version of paper accepted for Acta Astronautica
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- 2021
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9. Results and Analysis of the First Year of Operation of the UKRI STFC Daresbury Vertical Test Facility
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May, Andrew J., Pattalwar, Shrikant, Mason, David, Middleman, Keith, Pendleton, Mark D., Smith, Paul A., Wilde, Stuart, Akintola, Ayomikun, Bainbridge, Alexander R., Buckley, Rachael, Collier, Gary, Corlett, Peter, Dumbell, Keith, Ellis, Michael, Hancock, Mark, Hathaway, Jane, Hitchen, Sean, Hodgkinson, Carl, Hornickel, Philip, Hughes, Gary, Jenkins, Conor, Jones, Geraint, Lowe, Michael, McIntosh, Peter, Miller, George, Mutch, Jennifer, Moss, Andrew, Oates, Adrian, Wheelhouse, Alan E., White, Alastair A. J., Wilson, James, Qiu, Limin, editor, Wang, Kai, editor, and Ma, Yanwei, editor
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- 2023
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10. Polarimetric analysis of STEREO observations of sungrazing Kreutz comet C/2010 E6 (STEREO)
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Nežič, Rok, Bagnulo, Stefano, Jones, Geraint H., Knight, Matthew M., and Borisov, Galin
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Astrophysics - Earth and Planetary Astrophysics - Abstract
Twin STEREO spacecraft pre-perihelion photometric and polarimetric observations of the sungrazing Kreutz comet C/2010 E6 (STEREO) in March 2010 at heliocentric distances $3-28~R_{\odot}$ were investigated using a newly-created set of analysis routines. The comet fully disintegrated during its perihelion passage. Prior to that, a broadening and an increase of the intensity peak with decreasing heliocentric distance was accompanied by a drop to zero polarisation at high phase angles (~105-135{\deg}, STEREO-B) and the emergence of negative polarisation at low phase angles (~25-35{\deg}, STEREO-A). Outside the near-comet region, the tail exhibited a steep slope of increasing polarisation with increasing cometocentric distance, with the slope becoming less prominent as the comet approached the Sun. The steep slope may be attributed to sublimation of refractory organic matrix and the processing of dust grains, or to presence of amorphous carbon. The change in slope with proximity to the Sun is likely caused by the gradual sublimation of all refractory material. The polarisation signatures observed at both sets of phase angles closer to the comet photocentre as the comet approached the Sun are best explained by fragmentation of the nucleus, exposing fresh Mg-rich silicate particles, followed by their gradual sublimation. The need for further studies of such comets, both observational and theoretical, is highlighted, as well as the benefit of the analysis routines created for this work., Comment: 13 pages, 9 figures, 1 table. Published by MNRAS in April 2022
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- 2020
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11. Heavy Positive Ion Groups in Titan's Ionosphere from Cassini Plasma Spectrometer IBS Observations
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Haythornthwaite, Richard P., Coates, Andrew J., Jones, Geraint H., Wellbrock, Anne, Waite, J. Hunter, Vuitton, Veronique, and Lavvas, Panayotis
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Astrophysics - Earth and Planetary Astrophysics ,Physics - Space Physics - Abstract
Titan's ionosphere contains a plethora of hydrocarbons and nitrile cations and anions as measured by the Ion Neutral Mass Spectrometer and Cassini Plasma Spectrometer (CAPS) onboard the Cassini spacecraft. Data from the CAPS Ion Beam Spectrometer (IBS) sensor have been examined for five close encounters of Titan during 2009. The high relative velocity of Cassini with respect to the cold ions in Titan's ionosphere allows CAPS IBS to function as a mass spectrometer. Positive ion masses between 170 and 310 u/q are examined with ion mass groups identified between 170 and 275 u/q containing between 14 and 21 heavy (carbon/nitrogen/oxygen) atoms. These groups are the heaviest positive ion groups reported so far from the available in situ ion data at Titan. The ion group peaks are found to be consistent with masses associated with Polycyclic Aromatic Compounds (PAC), including Polycyclic Aromatic Hydrocarbon (PAH) and nitrogen-bearing polycyclic aromatic molecular ions. The ion group peak identifications are compared with previously proposed neutral PAHs and are found to be at similar masses, supporting a PAH interpretation. The spacing between the ion group peaks is also investigated, finding a spacing of 12 or 13 u/q indicating the addition of C or CH. Lastly, the occurrence of several ion groups is seen to vary across the five flybys studied, possibly relating to the varying solar radiation conditions observed across the flybys. These findings further the understanding between the low mass ions and the high mass negative ions, as well as with aerosol formation in Titan's atmosphere.
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- 2020
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12. Exocomets from a Solar System Perspective
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Strøm, Paul A., Bodewits, Dennis, Knight, Matthew M., Kiefer, Flavien, Jones, Geraint H., Kral, Quentin, Matrà, Luca, Bodman, Eva, Capria, Maria Teresa, Cleeves, Ilsedore, Fitzsimmons, Alan, Haghighipour, Nader, Harrison, John H. D., Iglesias, Daniela, Kama, Mihkel, Linnartz, Harold, Majumdar, Liton, de Mooij, Ernst J. W., Milam, Stefanie N., Opitom, Cyrielle, Rebollido, Isabel, Rogers, Laura K., Snodgrass, Colin, Sousa-Silva, Clara, Xu, Siyi, Lin, Zhong-Yi, and Zieba, Sebastian
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Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Solar and Stellar Astrophysics - Abstract
Exocomets are small bodies releasing gas and dust which orbit stars other than the Sun. Their existence was first inferred from the detection of variable absorption features in stellar spectra in the late 1980s using spectroscopy. More recently, they have been detected through photometric transits from space, and through far-IR/mm gas emission within debris disks. As (exo)comets are considered to contain the most pristine material accessible in stellar systems, they hold the potential to give us information about early stage formation and evolution conditions of extra Solar Systems. In the Solar System, comets carry the physical and chemical memory of the protoplanetary disk environment where they formed, providing relevant information on processes in the primordial solar nebula. The aim of this paper is to compare essential compositional properties between Solar System comets and exocomets. The paper aims to highlight commonalities and to discuss differences which may aid the communication between the involved research communities and perhaps also avoid misconceptions. Exocomets likely vary in their composition depending on their formation environment like Solar System comets do, and since exocomets are not resolved spatially, they pose a challenge when comparing them to high fidelity observations of Solar System comets. Observations of gas around main sequence stars, spectroscopic observations of "polluted" white dwarf atmospheres and spectroscopic observations of transiting exocomets suggest that exocomets may show compositional similarities with Solar System comets. The recent interstellar visitor 2I/Borisov showed gas, dust and nuclear properties similar to that of Solar System comets. This raises the tantalising prospect that observations of interstellar comets may help bridge the fields of exocomet and Solar System comets., Comment: 25 pages, 3 figures. To be published in PASP. This paper is the product of a workshop at the Lorentz Centre in Leiden, the Netherlands
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- 2020
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13. Cometary ions detected by the Cassini spacecraft 6.5 au downstream of Comet 153P/Ikeya-Zhang
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Jones, Geraint H., Elliott, Heather A., McComas, David J., Hill, Matthew E., Vandegriff, Jon, Smith, Edward J., Crary, Frank J., and Waite, J. Hunter
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Astrophysics - Earth and Planetary Astrophysics ,Physics - Space Physics - Abstract
During March-April 2002, while between the orbits of Jupiter and Saturn, the Cassini spacecraft detected a significant enhancement in pickup proton flux. The most likely explanation for this enhancement was the addition of protons to the solar wind by the ionization of neutral hydrogen in the corona of comet 153P/Ikeya-Zhang. This comet passed relatively close to the Sun-Cassini line during that period, allowing pickup ions to be carried to Cassini by the solar wind. This pickup proton flux could have been further modulated by the passage of the interplanetary counterparts of coronal mass ejections past the comet and spacecraft. The radial distance of 6.5 Astronomical Units (au) traveled by the pickup protons, and the implied total tail length of >7.5 au make this cometary ion tail the longest yet measured., Comment: Submitted to Icarus
- Published
- 2020
14. Prospects for the In Situ detection of Comet C/2019 Y4 ATLAS by Solar Orbiter
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Jones, Geraint H., Afghan, Qasim, and Price, Oliver
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Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Solar and Stellar Astrophysics - Abstract
The European Space Agency's Solar Orbiter spacecraft will pass approximately downstream of the position of comet C/2019 Y4 (ATLAS) in late May and early June 2020. We predict that the spacecraft may encounter the comet's ion tail around 2020 May 31-June 1, and that the comet's dust tail may be crossed on 2020 June 6. We outline the solar wind features and dust grain collisions that the spacecraft's instruments may detect when crossing the comet's two tails. Solar Orbiter will also pass close to the orbital path of C/2020 F8 (SWAN) on 2020 May 22, but we believe that it is unlikely to detect any material associated with that comet., Comment: 3 pages, 1 figure
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- 2020
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15. Potential Backup Targets for Comet Interceptor
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Schwamb, Megan E., Knight, Matthew M., Jones, Geraint H., Snodgrass, Colin, Bucci, Lorenzo, Perez, José Manuel Sánchez, and Skuppin, Nikolai
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Astrophysics - Earth and Planetary Astrophysics - Abstract
Comet Interceptor is an ESA F-class mission expected to launch in 2028 on the same launcher as ESA's ARIEL mission. Comet Interceptor's science payload consists of three spacecraft, a primary spacecraft that will carry two smaller probes to be released at the target. The three spacecraft will fly-by the target along different chords, providing multiple simultaneous perspectives of the comet nucleus and its environment. Each of the spacecraft will be equipped with different but complementary instrument suites designed to study the far and near coma environment and surface of a comet or interstellar object (ISO). The primary spacecraft will perform a fly-by at ~1000 km from the target. The two smaller probes will travel deeper into the coma, closer to the nucleus. The mission is being designed and launched without a specific comet designated as its main target. Comet Interceptor will travel to the Sun-Earth L2 Lagrangian point with ARIEL and wait in hibernation until a suitable long-period comet (LPC) is found that will come close enough to the Sun for the spacecraft to maneuver to an encounter trajectory. To prepare for all eventualities, the science team has assembled a preliminary set of backup targets from the known Jupiter family comets, where a suitable fly-by trajectory can be achieved during the nominal mission timeline (including the possibility of some launch delay). To better prioritize this list, we are releasing our potential backup targets in order to solicit the planetary community's help with observations of these objects over future apparitions and to encourage publication of archival data on these objects., Comment: Accepted to RNAAS
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- 2020
16. GaN-on-Si pressure, flow, and thermal conductivity sensors for harsh environments
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Jones, Geraint Rhys
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TA Engineering (General). Civil engineering (General) ,TJ Mechanical engineering and machinery ,TK Electrical engineering. Electronics Nuclear engineering - Abstract
There is a growing number of applications that demand sensors and devices that can deal with harsh environments, which has led to new materials being used to realise these. One material that has demonstrated promise in high temperature, high radiation, chemically and mechanically harsh environments is Gallium Nitride (GaN). GaN on a silicon platform has advantages over other group III-N materials, in that a variety of Micro Electromechanical System (MEMS) fabrication techniques can be used, and Complementary Metal Oxide Semiconductor (CMOS) circuitry can be monolithically integrated on the same chip. Pressure, flow, and thermal conductivity sensors are of particular interest in harsh environments, and these have been investigated here. A ring-HEMT pressure sensor is presented, that utilises a High-Electron Mobility Transistor (HEMT) embedded into the edge of a GaN membrane released from a silicon substrate. This device was tested in different bias conditions to find the best operating conditions for high sensitivity and low power consumption. This pressure sensor was modelled mechanically in an Finite Element Method (FEM) package, and the results fed into an analytical model to estimate the change in carrier concentration. Two flow sensors are presented. The first is a hot-film device using gold metallisation to create a thermoresitive flow sensor. The second uses the 2DEG at an AlGaN/GaN heterojunction as the hot-wire heating element. This work proved the operation of both sensors at ow rates up to 5 SLPM. Finally, a thermal conductivity sensor is presented based on the gold hot-film device, using gold/2DEG thermocouples as temperature sensors upstream and downstream of the heating element. Simultaneous measuring of the ow rate and thermal conductivity was achieved using an artificial neural network to discriminate between the two fluid properties. Principal Components Regression (PCR) and Partial Least Squares Regression (PLSR) linear statistical methods were also explored for this discrimination, but with limited success.
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- 2021
17. Enceladus as a potential oasis for life: Science goals and investigations for future explorations
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Choblet, Gaël, Tobie, Gabriel, Buch, Arnaud, Čadek, Ondrej, Barge, Laura M., Bēhounková, Marie, Camprubi, Eloi, Freissinet, Caroline, Hedman, Matt, Jones, Geraint, Lainey, Valery, Le Gall, Alice, Lucchetti, Alice, MacKenzie, Shannon, Mitri, Giuseppe, Neveu, Marc, Nimmo, Francis, Olsson-Francis, Karen, Panning, Mark, Postberg, Frank, Saur, Joachim, Schmidt, Jürgen, Sekine, Yasuhito, Shibuya, Takazo, Sotin, Christophe, Soucek, Ondrej, Szopa, Cyril, Usui, Tomohiro, Vance, Steven, and Van Hoolst, Tim
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- 2022
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18. GAUSS - genesis of asteroids and evolution of the solar system: A sample return mission to Ceres
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Shi, Xian, Castillo-Rogez, Julie, Hsieh, Henry, Hui, Hejiu, Ip, Wing-Huen, Lei, Hanlun, Li, Jian-Yang, Tosi, Federico, Zhou, Liyong, Agarwal, Jessica, Barucci, Antonella, Beck, Pierre, Bagatin, Adriano Campo, Capaccioni, Fabrizio, Coates, Andrew J., Cremonese, Gabriele, Duffard, Rene, Grande, Manuel, Jaumann, Ralf, Jones, Geraint H., Kallio, Esa, Lin, Yangting, Mousis, Olivier, Nathues, Andreas, Oberst, Jürgen, Sierks, Holger, Ulamec, Stephan, and Wang, Mingyuan
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- 2022
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19. The in-situ exploration of Jupiter’s radiation belts
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Roussos, Elias, Allanson, Oliver, André, Nicolas, Bertucci, Bruna, Branduardi-Raymont, Graziella, Clark, George, Dialynas, Konstantinos, Dandouras, Iannis, Desai, Ravindra T., Futaana, Yoshifumi, Gkioulidou, Matina, Jones, Geraint H., Kollmann, Peter, Kotova, Anna, Kronberg, Elena A., Krupp, Norbert, Murakami, Go, Nénon, Quentin, Nordheim, Tom, Palmaerts, Benjamin, Plainaki, Christina, Rae, Jonathan, Santos-Costa, Daniel, Sarris, Theodore, Shprits, Yuri, Sulaiman, Ali, Woodfield, Emma, Wu, Xin, and Yao, Zonghua
- Published
- 2022
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20. Ice giant system exploration within ESA’s Voyage 2050
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Fletcher, Leigh N., Helled, Ravit, Roussos, Elias, Jones, Geraint, Charnoz, Sébastien, André, Nicolas, Andrews, David, Bannister, Michele, Bunce, Emma, Cavalié, Thibault, Ferri, Francesca, Fortney, Jonathan, Grassi, Davide, Griton, Léa, Hartogh, Paul, Hueso, Ricardo, Kaspi, Yohai, Lamy, Laurent, Masters, Adam, Melin, Henrik, Moses, Julianne, Mousis, Oliver, Nettleman, Nadine, Plainaki, Christina, Schmidt, Jürgen, Simon, Amy, Tobie, Gabriel, Tortora, Paolo, Tosi, Federico, and Turrini, Diego
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- 2022
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21. GAUSS -- A Sample Return Mission to Ceres
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Shi, Xian, Castillo-Rogez, Julie, Hsieh, Henry, Hui, Hejiu, Ip, Wing-Huen, Lei, Hanlun, Li, Jian-Yang, Tosi, Federico, Zhou, Liyong, Agarwal, Jessica, Barucci, Antonella, Beck, Pierre, Bagatin, Adriano Campo, Capaccioni, Fabrizio, Coates, Andrew, Cremonese, Gabriele, Duffard, Rene, Jaumann, Ralf, Jones, Geraint, Grande, Manuel, Kallio, Esa, Lin, Yangting, Mousis, Olivier, Nathues, Andreas, Oberst, Jürgen, Showman, Adam, Sierks, Holger, Ulamec, Stephan, and Wang, Mingyuan
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Astrophysics - Instrumentation and Methods for Astrophysics ,Astrophysics - Earth and Planetary Astrophysics - Abstract
The goal of Project GAUSS is to return samples from the dwarf planet Ceres. Ceres is the most accessible ocean world candidate and the largest reservoir of water in the inner solar system. It shows active cryovolcanism and hydrothermal activities in recent history that resulted in minerals not found in any other planets to date except for Earth's upper crust. The possible occurrence of recent subsurface ocean on Ceres and the complex geochemistry suggest possible past habitability and even the potential for ongoing habitability. Aiming to answer a broad spectrum of questions about the origin and evolution of Ceres and its potential habitability, GAUSS will return samples from this possible ocean world for the first time. The project will address the following top-level scientific questions: 1) What is the origin of Ceres and the origin and transfer of water and other volatiles in the inner solar system? 2) What are the physical properties and internal structure of Ceres? What do they tell us about the evolutionary and aqueous alteration history of icy dwarf planets? 3) What are the astrobiological implications of Ceres? Was it habitable in the past and is it still today? 4) What are the mineralogical connections between Ceres and our current collections of primitive meteorites? GAUSS will first perform a high-resolution global remote sensing investigation, characterizing the geophysical and geochemical properties of Ceres. Candidate sampling sites will then be identified, and observation campaigns will be run for an in-depth assessment of the candidate sites. Once the sampling site is selected, a lander will be deployed on the surface to collect samples and return them to Earth in cryogenic conditions that preserves the volatile and organic composition as well as the original physical status as much as possible., Comment: Section 3.4 revised; List of team members updated; Typos corrected
- Published
- 2019
22. The in-situ exploration of Jupiter's radiation belts (A White Paper submitted in response to ESA's Voyage 2050 Call)
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Roussos, Elias, Allanson, Oliver, André, Nicolas, Bertucci, Bruna, Branduardi-Raymont, Graziella, Clark, George, Dialynas, Kostantinos, Dandouras, Iannis, Desai, Ravindra, Futaana, Yoshifumi, Gkioulidou, Matina, Jones, Geraint, Kollmann, Peter, Kotova, Anna, Kronberg, Elena, Krupp, Norbert, Murakami, Go, Nénon, Quentin, Nordheim, Tom, Palmaerts, Benjamin, Plainaki, Christina, Rae, Jonathan, Santos-Costa, Daniel, Sarris, Theodore, Shprits, Yuri, Sulaiman, Ali, Woodfield, Emma, Wu, Xin, and Yao, Zhonghua
- Subjects
Physics - Space Physics ,Astrophysics - Earth and Planetary Astrophysics - Abstract
Jupiter has the most energetic and complex radiation belts in our solar system. Their hazardous environment is the reason why so many spacecraft avoid rather than investigate them, and explains how they have kept many of their secrets so well hidden, despite having been studied for decades. In this White Paper we argue why these secrets are worth unveiling. Jupiter's radiation belts and the vast magnetosphere that encloses them constitute an unprecedented physical laboratory, suitable for both interdisciplinary and novel scientific investigations: from studying fundamental high energy plasma physics processes which operate throughout the universe, such as adiabatic charged particle acceleration and nonlinear wave-particle interactions; to exploiting the astrobiological consequences of energetic particle radiation. The in-situ exploration of the uninviting environment of Jupiter's radiation belts present us with many challenges in mission design, science planning, instrumentation and technology development. We address these challenges by reviewing the different options that exist for direct and indirect observation of this unique system. We stress the need for new instruments, the value of synergistic Earth and Jupiter-based remote sensing and in-situ investigations, and the vital importance of multi-spacecraft, in-situ measurements. While simultaneous, multi-point in-situ observations have long become the standard for exploring electromagnetic interactions in the inner solar system, they have never taken place at Jupiter or any strongly magnetized planet besides Earth. We conclude that a dedicated multi-spacecraft mission to Jupiter's radiation belts is an essential and obvious way forward and deserves to be given a high priority in ESA's Voyage 2050 programme., Comment: 28 pages, 3 Tables, 11 Figures
- Published
- 2019
23. Ice Giant Systems: The Scientific Potential of Orbital Missions to Uranus and Neptune
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Fletcher, Leigh N., Helled, Ravit, Roussos, Elias, Jones, Geraint, Charnoz, Sébastien, André, Nicolas, Andrews, David, Bannister, Michele, Bunce, Emma, Cavalié, Thibault, Ferri, Francesca, Fortney, Jonathan, Grassi, Davide, Griton, Léa, Hartogh, Paul, Hueso, Ricardo, Kaspi, Yohai, Lamy, Laurent, Masters, Adam, Melin, Henrik, Moses, Julianne, Mousis, Olivier, Nettleman, Nadine, Plainaki, Christina, Schmidt, Jürgen, Simon, Amy, Tobie, Gabriel, Tortora, Paolo, Tosi, Federico, and Turrini, Diego
- Subjects
Astrophysics - Earth and Planetary Astrophysics ,Astrophysics - Instrumentation and Methods for Astrophysics - Abstract
Uranus and Neptune, and their diverse satellite and ring systems, represent the least explored environments of our Solar System, and yet may provide the archetype for the most common outcome of planetary formation throughout our galaxy. Ice Giants will be the last remaining class of Solar System planet to have a dedicated orbital explorer, and international efforts are under way to realise such an ambitious mission in the coming decades. In 2019, the European Space Agency released a call for scientific themes for its strategic science planning process for the 2030s and 2040s, known as Voyage 2050. We used this opportunity to review our present-day knowledge of the Uranus and Neptune systems, producing a revised and updated set of scientific questions and motivations for their exploration. This review article describes how such a mission could explore their origins, ice-rich interiors, dynamic atmospheres, unique magnetospheres, and myriad icy satellites, to address questions at the heart of modern planetary science. These two worlds are superb examples of how planets with shared origins can exhibit remarkably different evolutionary paths: Neptune as the archetype for Ice Giants, whereas Uranus may be atypical. Exploring Uranus' natural satellites and Neptune's captured moon Triton could reveal how Ocean Worlds form and remain active, redefining the extent of the habitable zone in our Solar System. For these reasons and more, we advocate that an Ice Giant System explorer should become a strategic cornerstone mission within ESA's Voyage 2050 programme, in partnership with international collaborators, and targeting launch opportunities in the early 2030s., Comment: 34 pages, 9 figures, accepted to Planetary and Space Science
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- 2019
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24. Comet Interceptor Mission
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Jones, Geraint H., primary, Snodgrass, Colin, additional, Tubiana, Cecilia, additional, and Küppers, Michael, additional
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- 2023
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25. Fine-scale structure in cometary dust tails II: Further evidence for a solar wind influence on cometary dust dynamics from the analysis of striae in comet C/2011 L4 Pan-STARRS
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Price, Oliver, Jones, Geraint H., Battams, Karl, and Owens, Mathew
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- 2023
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26. Situated and overview data in the shared spaces of community gardens
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Sethu-Jones, Geraint Rhys
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307.76 - Abstract
Urban spaces are increasingly being used to grow plants (Hirsch et al., 2010) by communities (Blevis and Morse, 2009). Gardening is a complex task (Lyle, 2013) that could benefit from technological support (Campbell, 2013) (Lyle, 2013), however existing sensing and data technologies do not transfer well to a community context (Campbell, 2013) despite demonstrated benefits in commercial and industrial settings (Seelan et al., 2003). Some have argued that such technologies are inherently unsuitable for community growing contexts (Odom, 2010), however it is the specific design of these technologies that is inappropriate to a 'natural world' context, rather than technology itself (Bidwell and Browning, 2010). This thesis seeks to explore the tension between the potential benefits of sensors and data in community gardens, and the non-use of these technologies, using a Research In The Wild (RITW) approach (Rogers and Marshall, 2017). Contextual interviews were conducted in 5 community gardens to establish context and practice. This was followed by a design workshop, to elicit responses to novel technologies. The third phase was an experiment investigating theoretical questions about space and data that arose from the earlier phases. The fourth phase involved deploying a provocative prototype into a community garden, to investigate responses to novel technology in context. There are three contributions of this thesis based on this exploration of community gardens as shared spaces. The primary contributions are: 1. Domain Specific key themes and implications for design, and 2. Empirical observations about how situated and overview data representations alter the emergence of action in shared spaces. Additionally, there is a secondary reflective Methodological contribution, focusing on the use of RITW as a framing for research.
- Published
- 2019
27. Effects of the 2007 Martian Global Dust Storm on Boundary Positions in the Induced Magnetosphere
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Regan, Catherine E., primary, Coates, Andrew J., additional, Lester, Mark, additional, Wellbrock, Anne, additional, Jones, Geraint H., additional, Sánchez-Cano, Beatriz, additional, Garnier, Philippe, additional, Haythornthwaite, Richard P., additional, Meggi, Dikshita, additional, Frahm, Rudy A., additional, and Holmström, Mats, additional
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- 2024
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28. Imaging Polarimetry of Comet 67 P/Churyumov–Gerasimenko: Homogeneous Distribution of Polarisation and its Implications
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Gray, Zuri, primary, Bagnulo, Stefano, additional, Boehnhardt, Hermann, additional, Borisov, Galin, additional, Jones, Geraint H, additional, Kolokolova, Ludmilla, additional, Kwon, Yuna G, additional, Moreno, Fernando, additional, Muñoz, Olga, additional, Nežič, Rok, additional, and Snodgrass, Colin, additional
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- 2024
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29. Incipient singlet-triplet states in a hybrid mesoscopic system
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Yan, Chengyu, Kumar, Sanjeev, Pepper, Michael, See, Patrick, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, and Jones, Geraint
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
In the present work we provide an easily accessible way to achieve the singlet-triplet Kondo effect in a hybrid system consisting of a quantum point contact (QPC) coupled to an electronic cavity. We show that by activating the coupling between the QPC and cavity, a zero-bias anomaly occurs in a low conductance regime, a coexistence of zero-bias and finite-bias anomaly (FBA) in a medium conductance regime, and a FBA-only anomaly in a high conductance regime. The latter two observations are due to the singlet-triplet Kondo effect.
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- 2018
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30. Imaging the zigzag Wigner crystal in confinement-tunable quantum wires
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Ho, Sheng-Chin, Chang, Heng-Jian, Chang, Chia-Hua, Lo, Shun-Tsung, Creeth, Graham, Kumar, Sanjeev, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, Jones, Geraint, Pepper, Michael, and Chen, Tse-Ming
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Condensed Matter - Mesoscale and Nanoscale Physics ,Condensed Matter - Strongly Correlated Electrons - Abstract
The existence of Wigner crystallization, one of the most significant hallmarks of strong electron correlations, has to date only been definitively observed in two-dimensional systems. In one-dimensional (1D) quantum wires Wigner crystals correspond to regularly spaced electrons; however, weakening the confinement and allowing the electrons to relax in a second dimension is predicted to lead to the formation of a new ground state constituting a zigzag chain with nontrivial spin phases and properties. Here we report the observation of such zigzag Wigner crystals by use of on-chip charge and spin detectors employing electron focusing to image the charge density distribution and probe their spin properties. This experiment demonstrates both the structural and spin phase diagrams of the 1D Wigner crystallization. The existence of zigzag spin chains and phases which can be electrically controlled in semiconductor systems may open avenues for experimental studies of Wigner crystals and their technological applications in spintronics and quantum information., Comment: 13 pages, 4 figures
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- 2018
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31. Solar System Ice Giants: Exoplanets in our Backyard
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Rymer, Abigail, Mandt, Kathleen, Hurley, Dana, Lisse, Carey, Izenberg, Noam, Smith, H. Todd, Westlake, Joseph, Bunce, Emma, Arridge, Christopher, Masters, Adam, Hofstadter, Mark, Simon, Amy, Brandt, Pontus, Clark, George, Cohen, Ian, Allen, Robert, Vine, Sarah, Hansen, Kenneth, Hospodarsky, George, Kurth, William, Romani, Paul, Lamy, Laurent, Zarka, Philippe, Cao, Hao, Paty, Carol, Hedman, Matthew, Roussos, Elias, Cruikshank, Dale, Farrell, William, Fieseler, Paul, Coates, Andrew, Yelle, Roger, Parkinson, Christopher, Militzer, Burkhard, Grodent, Denis, Kollmann, Peter, McNutt, Ralph, André, Nicolas, Strange, Nathan, Barnes, Jason, Dones, Luke, Denk, Tilmann, Rathbun, Julie, Lunine, Jonathan, Desai, Ravi, Cochrane, Corey, Sayanagi, Kunio M., Postberg, Frank, Ebert, Robert, Hill, Thomas, Mueller-Wodarg, Ingo, Regoli, Leonardo, Pontius, Duane, Stanley, Sabine, Greathouse, Thomas, Saur, Joachim, Marouf, Essam, Bergman, Jan, Higgins, Chuck, Johnson, Robert, Thomsen, Michelle, Soderlund, Krista, Jia, Xianzhe, Wilson, Robert, Englander, Jacob, Burch, Jim, Nordheim, Tom, Grava, Cesare, Baines, Kevin, Quick, Lynnae, Russell, Christopher, Cravens, Thomas, Cecconi, Baptiste, Aslam, Shahid, Bray, Veronica, Garcia-Sage, Katherine, Richardson, John, Clark, John, Hsu, Sean, Achterberg, Richard, Sergis, Nick, Paganelli, Flora, Kempf, Sasha, Orton, Glenn, Portyankina, Ganna, Jones, Geraint, Economou, Thanasis, Livengood, Timothy, Krimigi, Stamatios, Szalay, James, Jackman, Catriona, Valek, Phillip, Lecacheux, Alain, Colwell, Joshua, Jasinski, Jamie, Tosi, Federico, Sulaiman, Ali, Galand, Marina, Kotova, Anna, Khurana, Krishan, Kivelson, Margaret, Strobel, Darrell, Radiota, Aikaterina, Estrada, Paul, Livi, Stefano, Azari, Abigail, Yates, Japheth, Allegrini, Frederic, Vogt, Marissa, Felici, Marianna, Luhmann, Janet, Filacchione, Gianrico, and Moore, Luke
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Astrophysics - Earth and Planetary Astrophysics - Abstract
Future remote sensing of exoplanets will be enhanced by a thorough investigation of our solar system Ice Giants (Neptune-size planets). What can the configuration of the magnetic field tell us (remotely) about the interior, and what implications does that field have for the structure of the magnetosphere; energy input into the atmosphere, and surface geophysics (for example surface weathering of satellites that might harbour sub-surface oceans). How can monitoring of auroral emission help inform future remote observations of emission from exoplanets? Our Solar System provides the only laboratory in which we can perform in-situ experiments to understand exoplanet formation, dynamos, systems and magnetospheres., Comment: Exoplanet Science Strategy White Paper, submitted to the National Academies of Sciences, Engineering and Medicine, Space Studies Board, 9 March 2018
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- 2018
32. Coherent Spin Amplification Using a Beam Splitter
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Yan, Chengyu, Kumar, Sanjeev, Thomas, Kalarikad, See, Patrick, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, Jones, Geraint, and Pepper, Michael
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Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We report spin amplification using a capacitive beam splitter in n-type GaAs where the spin polarization is monitored via transverse electron focusing measurement. It is shown that partially spin-polarized current injected by the emitter can be precisely controlled and the spin polarization associated with it can be amplified by the beam splitter, such that a considerably high spin polarization of around 50% can be obtained. Additionally, the spin remains coherent as shown by the observation of quantum interference. Our results illustrate that spin polarization amplification can be achieved in materials without strong spin-orbit interaction.
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- 2018
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33. The Plasma Environment of Comet 67P/Churyumov-Gerasimenko
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Goetz, Charlotte, Behar, Etienne, Beth, Arnaud, Bodewits, Dennis, Bromley, Steve, Burch, Jim, Deca, Jan, Divin, Andrey, Eriksson, Anders I., Feldman, Paul D., Galand, Marina, Gunell, Herbert, Henri, Pierre, Heritier, Kevin, Jones, Geraint H., Mandt, Kathleen E., Nilsson, Hans, Noonan, John W., Odelstad, Elias, Parker, Joel W., Rubin, Martin, Simon Wedlund, Cyril, Stephenson, Peter, Taylor, Matthew G. G. T., Vigren, Erik, Vines, Sarah K., and Volwerk, Martin
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- 2022
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34. Temperature Dependence of Spin-Split Peaks in Transverse Electron Focusing
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Yan, Chengyu, Kumar, Sanjeev, Pepper, Michael, See, Patrick, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, and Jones, Geraint
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We present experimental results of transverse electron-focusing measurements performed using n-type GaAs. In the presence of a small transverse magnetic field (B), electrons are focused from the injector to detector leading to focusing peaks periodic in B. We show that the odd-focusing peaks exhibit a split, where each sub-peak represents a population of a particular spin branch emanating from the injector. The temperature dependence reveals that the peak splitting is well defined at low temperature whereas it smears out at high temperature indicating the exchange-driven spin polarisation in the injector is dominant at low temperatures.
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- 2017
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35. Interference Effects in a Tunable Quantum Point Contact Integrated with an Electronic Cavity
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Yan, Chengyu, Kumar, Sanjeev, Pepper, Michael, See, Patrick, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, and Jones, Geraint
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We show experimentally how quantum interference can be produced using an integrated quantum system comprising an arch-shaped short quantum wire (or quantum point contact, QPC) of 1D electrons and a reflector forming an electronic cavity. On tuning the coupling between the QPC and the electronic cavity, fine oscillations are observed when the arch QPC is operated in the quasi-1D regime. These oscillations correspond to interference between the 1D states and a state which is similar to the Fabry-Perot state and suppressed by a small transverse magnetic field of 60mT. Tuning the reflector, we find a peak in resistance which follows the behavior expected for a Fano resonance. We suggest that this is an interesting example of a Fano resonance in an open system which corresponds to interference at or near the Ohmic contacts due to a directly propagating, reflected discrete path and the continuum states of the cavity corresponding to multiple scattering. Remarkably, the Fano factor shows an oscillatory behavior taking peaks for each fine oscillation, thus, confirming coupling between the discrete and continuum states. The results indicate that such a simple quantum device can be used as building blocks to create more complex integrated quantum circuits for possible applications ranging from quantum-information processing to realizing the fundamentals of complex quantum systems.
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- 2017
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36. Fano Resonance in a cavity-reflector hybrid system
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Yan, Chengyu, Kumar, Sanjeev, Pepper, Michael, See, Patrick, Farrer, Ian, Ritchie, David, Griffiths, Jonathan, and Jones, Geraint
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We present the results of transport measurements in a hybrid system consisting of an arch-shaped quantum point contact (QPC) and a reflector; together, they form an electronic cavity in between them. On tuning the arch-QPC and the reflector, asymmetric resonance peak in resistance is observed at the one-dimension to two-dimension transition. Moreover, a dip in resistance near the pinch-off of the QPC is found to be strongly dependent on the reflector voltage. These two structures fit very well with the Fano line shape. The Fano resonance was found to get weakened on applying a transverse magnetic field, and it smeared out at 100 mT. In addition, the Fano like shape exhibited a strong temperature dependence and gradually smeared out when the temperature was increased from 1.5 to 20 K. The results might be useful in realising device for quantum information processing.
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- 2017
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37. Real-world data evaluating Guy’s rapid diagnostic clinic as an alternate pathway for patients with FIT levels below 10
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Monroy-Iglesias, Maria Jose, primary, Martin, Sabine, additional, Cargaleiro, Carlos, additional, Jones, Geraint, additional, Steward, Lindsay, additional, Murtagh, Colette, additional, Bruno, Flaminia, additional, Millwaters, Juliet, additional, Schizas, Alexis, additional, Watson, Harriet, additional, Haire, Anna, additional, Haire, Kate, additional, Moss, Charlotte Louise, additional, Russell, Beth, additional, Srirajaskanthan, Raj, additional, Van Hemelrijck, Mieke, additional, and Dolly, Saoirse, additional
- Published
- 2024
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38. The perihelion activity of comet 67P/Churyumov-Gerasimenko as seen by robotic telescopes
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Snodgrass, Colin, Opitom, Cyrielle, de Val-Borro, Miguel, Jehin, Emmanuel, Manfroid, Jean, Lister, Tim, Marchant, Jon, Jones, Geraint H., Fitzsimmons, Alan, Steele, Iain A., Smith, Robert J., Jermak, Helen, Granzer, Thomas, Meech, Karen J., Rousselot, Philippe, and Levasseur-Regourd, Anny-Chantal
- Subjects
Astrophysics - Earth and Planetary Astrophysics - Abstract
Around the time of its perihelion passage the observability of 67P/Churyumov-Gerasimenko from Earth was limited to very short windows each morning from any given site, due to the low solar elongation of the comet. The peak in the comet's activity was therefore difficult to observe with conventionally scheduled telescopes, but was possible where service/queue scheduled mode was possible, and with robotic telescopes. We describe the robotic observations that allowed us to measure the total activity of the comet around perihelion, via photometry (dust) and spectroscopy (gas), and compare these results with the measurements at this time by Rosetta's instruments. The peak of activity occurred approximately two weeks after perihelion. The total brightness (dust) largely followed the predictions from Snodgrass et al. 2013, with no significant change in total activity levels from previous apparitions. The CN gas production rate matched previous orbits near perihelion, but appeared to be relatively low later in the year., Comment: To appear in special issue of MNRAS "The ESLAB 50 Symposium - spacecraft at comets from 1P/Halley to 67P/Churyumov-Gerasimenko"
- Published
- 2016
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39. Many-body effects in a quasi-one-dimensional electron gas
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Kumar, Sanjeev, Thomas, Kalarikad J., Smith, Luke W., Pepper, Michael, Creeth, Graham L., Farrer, Ian, Ritchie, David, Jones, Geraint, and Griffiths, Jonathan
- Subjects
Condensed Matter - Mesoscale and Nanoscale Physics - Abstract
We have investigated electron transport in a quasi-one dimensional (quasi-1D) electron gas as a function of the confinement potential. At a particular potential configuration, and electron concentration, the ground state of a 1D quantum wire splits into two rows to form an incipient Wigner lattice. It was found that application of a transverse magnetic field can transform a double-row electron configuration into a single-row due to magnetic enhancement of the confinement potential. The movements of the energy levels have been monitored under varying conditions of confinement potential and in-plane magnetic field. It is also shown that when the confinement is weak, electron occupation drives a reordering of the levels such that the normal ground state passes through the higher levels. The results show that the levels can be manipulated by utilising their different dependence on spatial confinement and electron concentration, thus enhancing the understanding of many body interactions in mesoscopic 1D quantum wires., Comment: 14 pages, 3 figures
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- 2014
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40. Joint Europa Mission (JEM): a multi-scale study of Europa to characterize its habitability and search for extant life
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Blanc, Michel, Prieto-Ballesteros, Olga, André, Nicolas, Gomez-Elvira, Javier, Jones, Geraint, Sterken, Veerle, Desprats, William, Gurvits, Leonid I., Khurana, Krishan, Balmino, Georges, Blöcker, Aljona, Broquet, Renaud, Bunce, Emma, Cavel, Cyril, Choblet, Gaël, Colins, Geoffrey, Coradini, Marcello, Cooper, John, Dirkx, Dominic, Fontaine, Dominique, Garnier, Philippe, Gaudin, David, Hartogh, Paul, Hussmann, Hauke, Genova, Antonio, Iess, Luciano, Jäggi, Adrian, Kempf, Sascha, Krupp, Norbert, Lara, Luisa, Lasue, Jérémie, Lainey, Valéry, Leblanc, François, Lebreton, Jean-Pierre, Longobardo, Andrea, Lorenz, Ralph, Martins, Philippe, Martins, Zita, Marty, Jean-Charles, Masters, Adam, Mimoun, David, Palumba, Ernesto, Parro, Victor, Regnier, Pascal, Saur, Joachim, Schutte, Adriaan, Sittler, Edward C., Spohn, Tilman, Srama, Ralf, Stephan, Katrin, Szegő, Károly, Tosi, Federico, Vance, Steve, Wagner, Roland, Van Hoolst, Tim, Volwerk, Martin, Wahlund, Jan-Erik, Westall, Frances, and Wurz, Peter
- Published
- 2020
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41. The effectiveness of the Guy’s Rapid Diagnostic Clinic (RDC) in detecting cancer and serious conditions in vague symptom patients
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Dolly, Saoirse Olivia, Jones, Geraint, Allchorne, Paula, Wheeler, Daniel, Ali, Sunnyath, Mukadam, Yaseen, Zheng, Sifan, Rahman, Loay, Sindhar, Jan, Moss, Charlotte Louise, Harari, Danielle, Van Hemelrijck, Mieke, Cunliffe, Anthony, and De Michele, Luigi Vincenzo
- Published
- 2021
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42. Anxiety and depression in patients with non-site-specific cancer symptoms: data from a rapid diagnostic clinic.
- Author
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Monroy-Iglesias, Maria J., Russell, Beth, Martin, Sabine, Fox, Louis, Moss, Charlotte, Bruno, Flaminia, Millwaters, Juliet, Steward, Lindsay, Murtagh, Colette, Cargaleiro, Carlos, Bater, Darren, Lavelle, Grace, Simpson, Anna, Onih, Jemima, Haire, Anna, Reeder, Clare, Jones, Geraint, Smith, Sue, Santaolalla, Aida, and Van Hemelrijck, Mieke
- Subjects
MENTAL depression ,ANXIETY ,MACHINE learning ,CANCER patients ,ANXIETY disorders ,SUPPORT vector machines - Abstract
Background: Rapid diagnostic clinics (RDCs) provide a streamlined holistic pathway for patients presenting with non-site specific (NSS) symptoms concerning of malignancy. The current study aimed to: 1) assess the prevalence of anxiety and depression, and 2) identify a combination of patient characteristics and symptoms associated with severe anxiety and depression at Guy's and St Thomas' Foundation Trust (GSTT) RDC in Southeast London. Additionally, we compared standard statistical methods with machine learning algorithms for predicting severe anxiety and depression. Methods: Patients seen at GSTT RDC between June 2019 and January 2023 completed the General Anxiety Disorder Questionnaire (GAD-7) and Patient Health Questionnaire (PHQ-8) questionnaires, at baseline. We used logistic regression (LR) and 2 machine learning (ML) algorithms (random forest (RF), support vector machine (SVM)) to predict risk of severe anxiety and severe depression. The models were constructed using a set of sociodemographic and clinical variables. Results: A total of 1734 patients completed GAD-7 and PHQ-8 questionnaires. Of these, the mean age was 59 years (Standard Deviation: 15.5), and 61.5% (n:1067) were female. Prevalence of severe anxiety (GAD-7 score ≥15) was 13.8% and severe depression (PHQ-8 score≥20) was 9.3%. LR showed that a combination of previous mental health condition (PMH, Adjusted Odds Rario (AOR) 3.28; 95% confidence interval (CI) 2.36-4.56), symptom duration >6 months (AOR 2.20; 95%CI 1.28-3.77), weight loss (AOR 1.88; 95% CI 1.362.61), progressive pain (AOR 1.71; 95%CI 1.26-2.32), and fatigue (AOR 1.36; 95%CI 1.01-1.84), was positively associated with severe anxiety. Likewise, a combination PMH condition (AOR 3.95; 95%CI 2.17-5.75), fatigue (AOR 2.11; 95%CI 1.47-3.01), symptom duration >6 months (AOR 1.98; 95%CI 1.06-3.68), weight loss (AOR 1.66; 95%CI 1.13-2.44), and progressive pain (AOR 1.50; 95%CI 1.04-2.16), was positively associated with severe depression. LR and SVM had highest accuracy levels for severe anxiety (LR: 86%, SVM: 85%) and severe depression (SVM: 89%, LR: 86%). Conclusion: High prevalence of severe anxiety and severe depression was found. PMH, fatigue, weight loss, progressive pain, and symptoms >6 months emerged as combined risk factors for both these psychological comorbidities. RDCs offer an opportunity to alleviate distress in patients with concerning symptoms by expediting diagnostic evaluations. [ABSTRACT FROM AUTHOR]
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- 2024
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43. Ice Giant Systems: The scientific potential of orbital missions to Uranus and Neptune
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Fletcher, Leigh N., Helled, Ravit, Roussos, Elias, Jones, Geraint, Charnoz, Sébastien, André, Nicolas, Andrews, David, Bannister, Michele, Bunce, Emma, Cavalié, Thibault, Ferri, Francesca, Fortney, Jonathan, Grassi, Davide, Griton, Léa, Hartogh, Paul, Hueso, Ricardo, Kaspi, Yohai, Lamy, Laurent, Masters, Adam, Melin, Henrik, Moses, Julianne, Mousis, Oliver, Nettleman, Nadine, Plainaki, Christina, Schmidt, Jürgen, Simon, Amy, Tobie, Gabriel, Tortora, Paolo, Tosi, Federico, and Turrini, Diego
- Published
- 2020
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44. Polarimetry of Didymos–Dimorphos: Unexpected Long-term Effects of the DART Impact
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Gray, Zuri, primary, Bagnulo, Stefano, additional, Granvik, Mikael, additional, Cellino, Alberto, additional, Jones, Geraint H., additional, Kolokolova, Ludmilla, additional, Moreno, Fernando, additional, Muinonen, Karri, additional, Muñoz, Olga, additional, Opitom, Cyrielle, additional, Penttilä, Antti, additional, and Snodgrass, Colin, additional
- Published
- 2024
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45. IMI European Lead Factory — democratizing access to high-throughput screening
- Author
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Jones, Philip S., Boucharens, Sylviane, McElroy, Stuart P., Morrison, Angus, Honarnejad, Saman, van Boeckel, Stan, van den Hurk, Helma, Basting, Daniel, Hüser, Jörg, Jaroch, Stefan, Ottow, Eckhard, Benningshof, Jorg, Folmer, Rutger H. A., Leemhuis, Frank, Kramer-Verhulst, Patricia M., Nies, Vera J. M., Orrling, Kristina M., Rijnders, Ton, Pfander, Claudia, Engkvist, Ola, Pairaudeau, Garry, Simpson, Peter B., Ortholand, Jean-Yves, Roche, Didier, Dömling, Alexander, Kühnert, Sven M., Roevens, Peter W. M., van Vlijmen, Herman, van Wanrooij, Eva J. A., Verbruggen, Christophe, Nussbaumer, Peter, Ovaa, Huib, van der Stelt, Mario, Simonsen, Klaus Baek, Tagmose, Lena, Waldmann, Herbert, Duffy, James, Finsinger, Dirk, Jurzak, Mirek, Burgess-Brown, Nicola A., Lee, Wen H., Rutjes, Floris P. J. T., Haag, Hubert, Kallus, Christopher, Mors, Hartmut, Dorval, Thierry, Lesur, Brigitte, Ramon Olayo, Fernando, Hamza, Daniel, Jones, Geraint, Pearce, Christopher, Piechot, Alexander, Tzalis, Dimitrios, Clausen, Mads H., Davis, Jeremy, Derouane, Daphné, Vermeiren, Céline, Kaiser, Markus, Stockman, Robert A., Barrault, Denise V., Pannifer, Andrew D., Swedlow, Jason R., Nelson, Adam S., Orru, Romano V. A., Ruijter, Eelco, van Helden, Steven P., Li, Volkhart M., Vries, Ton, and de Vlieger, Jon S. B.
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- 2022
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46. Comet Interceptor Mission
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Jones, Geraint H., primary, Snodgrass, Colin, additional, Tubiana, Cecilia, additional, and Küppers, Michael, additional
- Published
- 2021
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47. Application of a multiple attribute group decision making (MAGDM) model for selecting appropriate maintenance strategy for marine and offshore machinery operations
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Asuquo, Maurice P., Wang, Jin, Zhang, Lihong, and Phylip-Jones, Geraint
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- 2019
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48. Barriers to healthcare access and experiences of stigma: Findings from a coproduced Long Covid case‐finding study.
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Clutterbuck, Donna, Ramasawmy, Mel, Pantelic, Marija, Hayer, Jasmine, Begum, Fauzia, Faghy, Mark, Nasir, Nayab, Causer, Barry, Heightman, Melissa, Allsopp, Gail, Wootton, Dan, Khan, M. Asad, Hastie, Claire, Jackson, Monique, Rayner, Clare, Brown, Darren, Parrett, Emily, Jones, Geraint, Clarke, Rowan, and Mcfarland, Sammie
- Subjects
HEALTH services accessibility ,FEAR ,MENTAL health ,RESEARCH funding ,POST-acute COVID-19 syndrome ,INTERVIEWING ,THEMATIC analysis ,RESEARCH methodology ,CONCEPTUAL structures ,DATA analysis software ,SOCIAL stigma ,PATIENTS' attitudes - Abstract
Background and Aim: Long Covid is often stigmatised, particularly in people who are disadvantaged within society. This may prevent them from seeking help and could lead to widening health inequalities. This coproduced study with a Community Advisory Board (CAB) of people with Long Covid aimed to understand healthcare and wider barriers and stigma experienced by people with probable Long Covid. Methods: An active case finding approach was employed to find adults with probable, but not yet clinically diagnosed, Long Covid in two localities in London (Camden and Merton) and Derbyshire, England. Interviews explored the barriers to care and the stigma faced by participants and were analysed thematically. This study forms part of the STIMULATE‐ICP Collaboration. Findings: Twenty‐three interviews were completed. Participants reported limited awareness of what Long Covid is and the available pathways to management. There was considerable self‐doubt among participants, sometimes reinforced by interactions with healthcare professionals (HCPs). Participants questioned their deservedness in seeking healthcare support for their symptoms. Hesitancy to engage with healthcare services was motivated by fear of needing more investigation and concerns regarding judgement about the ability to carry out caregiving responsibilities. It was also motivated by the complexity of the clinical presentation and fear of all symptoms being attributed to poor mental health. Participants also reported trying to avoid overburdening the health system. These difficulties were compounded by experiences of stigma and discrimination. The emerging themes reaffirmed a framework of epistemic injustice in relation to Long Covid, where creating, interpreting and conveying knowledge has varied credibility based on the teller's identity characteristics and/or the level of their interpretive resources. Conclusion: We have codeveloped recommendations based on the findings. These include early signposting to services, dedicating protected time to listening to people with Long Covid, providing a holistic approach in care pathways, and working to mitigate stigma. Regardless of the diagnosis, people experiencing new symptoms must be encouraged to seek timely medical help. Clear public health messaging is needed among communities already disadvantaged by epistemic injustice to raise awareness of Long Covid, and to share stories that encourage seeking care and to illustrate the adverse effects of stigma. Patient or Public Contribution: This study was coproduced with a CAB made up of 23 members including HCPs, people with lived experience of Long Covid and other stakeholders. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
49. Jupiter Science Enabled by ESA’s Jupiter Icy Moons Explorer
- Author
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Fletcher, Leigh N., primary, Cavalié, Thibault, additional, Grassi, Davide, additional, Hueso, Ricardo, additional, Lara, Luisa M., additional, Kaspi, Yohai, additional, Galanti, Eli, additional, Greathouse, Thomas K., additional, Molyneux, Philippa M., additional, Galand, Marina, additional, Vallat, Claire, additional, Witasse, Olivier, additional, Lorente, Rosario, additional, Hartogh, Paul, additional, Poulet, François, additional, Langevin, Yves, additional, Palumbo, Pasquale, additional, Gladstone, G. Randall, additional, Retherford, Kurt D., additional, Dougherty, Michele K., additional, Wahlund, Jan-Erik, additional, Barabash, Stas, additional, Iess, Luciano, additional, Bruzzone, Lorenzo, additional, Hussmann, Hauke, additional, Gurvits, Leonid I., additional, Santolik, Ondřej, additional, Kolmasova, Ivana, additional, Fischer, Georg, additional, Müller-Wodarg, Ingo, additional, Piccioni, Giuseppe, additional, Fouchet, Thierry, additional, Gérard, Jean-Claude, additional, Sánchez-Lavega, Agustin, additional, Irwin, Patrick G. J., additional, Grodent, Denis, additional, Altieri, Francesca, additional, Mura, Alessandro, additional, Drossart, Pierre, additional, Kammer, Josh, additional, Giles, Rohini, additional, Cazaux, Stéphanie, additional, Jones, Geraint, additional, Smirnova, Maria, additional, Lellouch, Emmanuel, additional, Medvedev, Alexander S., additional, Moreno, Raphael, additional, Rezac, Ladislav, additional, Coustenis, Athena, additional, and Costa, Marc, additional
- Published
- 2023
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50. In situ collection of dust grains falling from Saturn’s rings into its atmosphere
- Author
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Hsu, Hsiang-Wen, Schmidt, Jürgen, Kempf, Sascha, Postberg, Frank, Moragas-Klostermeyer, Georg, Seiß, Martin, Hoffmann, Holger, Burton, Marcia, Ye, ShengYi, Kurth, William S., Horányi, Mihály, Khawaja, Nozair, Spahn, Frank, Schirdewahn, Daniel, O’Donoghue, James, Moore, Luke, Cuzzi, Jeff, Jones, Geraint H., and Srama, Ralf
- Published
- 2018
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