Publications

  1. T. Costa, T.D. Pearce, A.V. Krivov (2024): Increasing planet-stirring efficiency of debris disks by 'projectile stirring' and 'resonant stirring'. MNRAS 527, 7317−7336
    https://ui.adsabs.harvard.edu/abs/2024MNRAS.527.7317C/abstract
  2. T.D. Pearce, A.V. Krivov, A.A. Sefilian, M.R. Jankovic, T. Löhne, T. Morgner, M.C. Wyatt, M. Booth, S. Marino (2024): The effect of sculpting planets on the steepness of debris-disc inner edges. MNRAS 527, 3876−3899
    https://ui.adsabs.harvard.edu/abs/2024MNRAS.527.3876P/abstract
  3. T.A. Stuber, F. Kirchschlager, T.D. Pearce, S. Ertel, A.V. Krivov, S. Wolf (2023): How much large dust could be present in hot exozodiacal dust systems? A&A, 678, A121
    https://ui.adsabs.harvard.edu/abs/2023A%26A...678A.121S/abstract
  4. P.P. Poblete, T. Löhne, T.D. Pearce, A.A. Sefilian (2023): Self-gravity of debris discs can strongly change the outcomes of interactions with inclined planets. MNRAS 526, 2017−2031
    https://ui.adsabs.harvard.edu/abs/2023MNRAS.526.2017P/abstract
  5. A.I. Blanco, S. Marino, L. Matrà, M. Booth, J. Carpenter, V. Faramaz, T. Henning, A.M. Hughes, G.M. Kennedy, S. Pérez, L. Ricci, M.C. Wyatt (2023): Inner edges of planetesimal belts: collisionally eroded or truncated? MNRAS 522, 6150−6169
    https://ui.adsabs.harvard.edu/abs/2023MNRAS.522.6150I/abstract
  6. M. Booth, T.D. Pearce, A.V. Krivov, M.C. Wyatt, W.R.F. Dent, A.S. Hales, J.-F. Lestrade, F. Cruz-Sáenz de Miera, V.C. Faramaz, T. Löhne, M. Chavez-Dagostino (2023): The clumpy structure of ϵ Eridani’s debris disc revisited by ALMA. MNRAS 521, 6180−6194
    https://ui.adsabs.harvard.edu/abs/2023MNRAS.521.6180B/abstract
  7. A.L. Carter, S. Hinkley, J. Kammerer, A. Skemer, B.A. Biller, J.M. Leisenring, M.A. Millar-Blanchaer, S. Petrus, J.M. Stone, K. Ward-Duong, J.J. Wang, J.H. Girard, D.C. Hines, M.D. Perrin, L. Pueyo W.O. Balmer, M. Bonavita, M. Bonnefoy, G. Chauvin, E. Choquet, V. Christiaens, C. Danielski, G.M. Kennedy, E.C. Matthews, B.E. Miles, P. Patapis, S. Ray, E. Rickman, S. Sallum, K.R. Stapelfeldt, N. Whiteford, Y. Zhou, O. Absil, A. Boccaletti, M Booth, B.P. Bowler, C.H. Chen, T. Currie, J.J. Fortney, C.A. Grady, A.Z. Greebaum, T. Henning, K.K.W. Hoch, M. Janson, P. Kalas, M.A. Kenworthy, P. Kervella, A.L. Kraus, P.-O. Lagage, M.C. Liu, B. Macintosh, S. Marino, M.S. Marley, C. Marois, B.C. Matthews, D. Mawet, M.W. McElwain, S. Metchev, M.R. Meyer, P. Molliere, S.E. Moran, C.V. Morley, S. Mukherjee, E. Pantin, A. Quirrenbach, I. Rebollido, B.B. Ren, G. Schneider, M. Vasist, K. Worthen, M.C. Wyatt, Z.W. Briesemeister, M.L. Bryan, P. Calissendorff, F. Cantalloube, G. Cugno, M. De Furio, T.J. Dupuy, S.M. Factor, J.K. Faherty, M.P. Fitzgerald, K. Franson, E.C. Gonzales, C.E. Hood, A.R. Howe, M. Kuzuhara, A.-M. Lagrange, K. Lawson, C. Lazzoni, B.W.P. Lew, P. Liu, J. Llop-Sayson, J.P. Lloyd, R.A. Martinez, J. Mazoyer, P. Palma-Bifani, S.P. Quanz, J.A. Redai, M. Samland, J.E. Schlieder, M. Tamura, X. Tan, T. Uyama, A. Vigan, J. M. Vos, K. Wagner, S.G. Wolff, M. Ygouf, X. Zhang, K. Zhang, Z. Zhang (2023): The JWST Early Release Science Program for Direct Observations of Exoplanetary Systems I: High-contrast Imaging of the Exoplanet HIP 65426 b from 2 to 16 μm. ApJL 951, L20
    https://ui.adsabs.harvard.edu/abs/2023ApJ...951L..20C/abstract
  8. K. Franson, B.P. Bowler, Y. Zhou, T.D. Pearce, D.C. Bardalez Gagliuffi, L.I. Biddle, T.D. Brandt, J.R. Crepp, T.J. Dupuy, J.Faherty, R. Jensen-Clem, M. Morgan, A. Sanghi, C.A. Theissen, Q.H. Tran, T.N. Wolf (2023): Astrometric Accelerations as Dynamical Beacons: A Giant Planet Imaged inside the Debris Disk of the Young Star AF Lep. ApJL 950, L19
    https://ui.adsabs.harvard.edu/abs/2023ApJ...950L..19F/abstract
  9. B.E. Miles, B.A. Biller, P. Patapis, K. Worthen, E. Rickman, K.K.W. Hoch, A. Skemer, M.D. Perrin, N. Whiteford, C.H. Chen, B. Sargent, S. Mukherjee, C.V. Morley, S.E. Moran, M. Bonnefoy, S. Petrus, A.L. Carter, E. Choquet, S. Hinkley, K. Ward-Duong, J.M. Leisenring, M.A. Millar-Blanchaer, L. Pueyo, S. Ray, S. Sallum, K.R. Stapelfeldt, J.M. Stone, J.J. Wang, O. Absil, W.O. Balmer, A. Boccaletti, M. Bonavita, M. Booth, B.P. Bowler, G. Chauvin, V. Christiaens, T. Currie, C. Danielski, J.J. Fortney, J.H. Girard, C.A. Grady, A.Z. Greenbaum, T. Henning, D.C. Hines, M. Janson, P. Kalas, J. Kammerer, G.M. Kennedy, M.A. Kenworthy, P. Kervella, P.-O. Lagage, B.W.P. Lew, M.C. Liu, B. Macintosh, S. Marino, M.S. Marley, C. Marois, E.C. Matthews, B.C. Matthews, D. Mawet, M.W. McElwain, S. Metchev, M.R. Meyer, P. Molliere, E. Pantin, A. Quirrenbach, I. Rebollido, B.B. Ren, G. Schneider, M. Vasist, M.C. Wyatt, Y. Zhou, Z.W. Briesemeister, M.L. Bryan, P. Calissendorff, F. Cantalloube, G. Cugno, M. De Furio, T.J. Dupuy, S.M. Factor, J.K. Faherty, M.P. Fitzgerald, K. Franson, E.C. Gonzales, C.E. Hood, A.R. Howe, A.L. Kraus, M. Kuzuhara, A.-M. Lagrange, K. Lawson, C. Lazzoni, P. Liu, J. Llop-Sayson, J.P. Lloyd, R.A. Martinez, J. Mazoyer, S.P. Quanz, J.A. Redai, M. Samland, J.E. Schlieder, M. Tamura, X. Tan, T. Uyama, A. Vigan, J.M. Vos, K. Wagner, S.G. Wolff, M. Ygouf, X. Zhang, K. Zhang, Z. Zhang (2023): The JWST Early-release Science Program for Direct Observations of Exoplanetary Systems II: A 1 to 20 μm Spectrum of the Planetary-mass Companion VHS 1256–1257 b. ApJL 946, L6
    https://ui.adsabs.harvard.edu/abs/2023ApJ...946L...6M/abstract
  10. G. Cugno, T.D. Pearce, R. Launhardt, M.J. Bonse, J. Ma, T. Henning, A. Quirrenbach, D. Ségransan, E.C. Matthews, S.P. Quanz, G.M. Kennedy, A. Müller, S. Reffert, E.L. Rickman (2023): ISPY: NACO Imaging Survey for Planets around Young stars. The demographics of forming planets embedded in protoplanetary disks. A&A 669, A145
    https://ui.adsabs.harvard.edu/abs/2023A%26A...669A.145C/abstract
  11. J. Bürger, T. Glißmann, A. Lethuillier, D. Bischoff, B. Gundlach, H. Mutschke, S. Höfer, S. Wolf, J. Blum (2023): Sub-mm/mm optical properties of real protoplanetary matter derived from Rosetta/MIRO observations of comet 67P. MNRAS 519, 641−665
    https://ui.adsabs.harvard.edu/abs/2023MNRAS.519..641B/abstract
  12. T.A. Stuber, T. Löhne, S. Wolf (2023): Using debris disk observations to infer substellar companions orbiting within or outside a parent planetesimal belt. A&A 669, A3
    https://ui.adsabs.harvard.edu/abs/2023A%26A...669A...3S/abstract
  13. P.P. Poblete, N. Cuello, S. Pérez, S. Marino, J. Calcino, E. Macías, Á. Ribas, A., Zurlo, J. Cuadra, M. Montesinos, S. Zúñiga-Fernández, A. Bayo, C. Pinte, F. Ménard, D.J. Price (2022): The protoplanetary disc around HD 169142: circumstellar or circumbinary? MNRAS 510, 205–215
    https://ui.adsabs.harvard.edu/abs/2022MNRAS.510..205P/abstract
  14. M.F. Friebe, T.D. Pearce, T. Löhne (2022): Gap carving by a migrating planet embedded in a massive debris disc. MNRAS 512, 4441−4454.
    https://ui.adsabs.harvard.edu/abs/2022MNRAS.512.4441F/abstract
  15. S. Hinkley, A.L. Carter, S. Ray, A. Skemer, B. Biller, E. Choquet, M.A. Millar-Blanchaer, S. Sallum, B. Miles, N. Whiteford, P. Patapis, M. Perrin, L. Pueyo, G. Schneider, K. Stapelfeldt, J. Wang, K. Ward-Duong, B.P. Bowler, A. Boccaletti, J.H. Girard, D. Hines, P. Kalas, J. Kammerer, P. Kervella, J. Leisenring, E. Pantin, Y. Zhou, M. Meyer, M.C. Liu, M. Bonnefoy, T. Currie, M. McElwain, S. Metchev, M. Wyatt, O. Absil, J. Adams, T. Barman, I. Baraffe, M. Bonavita, M. Booth, M. Bryan, G. Chauvin, C. Chen, C. Danielski, M. de Furio, S.M. Factor, M.P. Fitzgerald, J.J. Fortney, C. Grady, A. Greenbaum, T. Henning, K.K.W. Hoch, M. Janson, G. Kennedy, M. Kenworthy, A. Kraus, M. Kuzuhara, P.-O. Lagage, A.-M. Lagrange, R. Launhardt, C. Lazzoni, J. Lloyd, S. Marino, M. Marley, R. Martinez, C. Marois, B. Matthews, E.C. Matthews, D. Mawet, J. Mazoyer, M. Phillips, S. Petrus, S.P. Quanz, A. Quirrenbach, J. Rameau, I. Rebollido, E. Rickman, M. Samland, B. Sargent, J.E. Schlieder, A. Sivaramakrishnan, J.M. Stone, M. Tamura, P. Tremblin, T. Uyama, M. Vasist, A. Vigan, K. Wagner, M. Ygouf (2022): The JWST Early Release Science Program for the Direct Imaging and Spectroscopy of Exoplanetary Systems. PASP 134, 95003
    https://ui.adsabs.harvard.edu/abs/2022PASP..134i5003H/abstract
  16. T.D. Pearce, F. Kirchschlager, G. Rouillé, S. Ertel, A. Bensberg, A.V. Krivov, M. Booth, S. Wolf, J.-C. Augereau (2022): Hot exozodis: cometary supply without trapping is unlikely to be the mechanism. MNRAS 517, 1436−1451
    https://ui.adsabs.harvard.edu/abs/2022MNRAS.517.1436P/abstract
  17. A. Potapov, M.E. Palumbo, Z. Dionnet, A. Longobardo, C. Jäger, G. Baratta, A. Rotundi, T. Henning (2022): Exploring refractory organics in extraterrestrial particles. ApJ 935, 158
    https://ui.adsabs.harvard.edu/abs/2022ApJ...935..158P/abstract
  18. A. Potapov, D. Fulvio, S. Krasnokutski, C. Jäger, T. Henning (2022): Formation of complex organic and prebiotic molecules in H2O:NH3:CO2 ices at temperatures relevant to hot cores, protostellar envelopes, and planet-forming disks. J. Phys. Chem. A 126, 1627−1639
    https://ui.adsabs.harvard.edu/abs/2022JPCA..126.1627P/abstract
  19. T.D. Pearce, R. Launhardt, R. Ostermann, G.M. Kennedy, M. Gennaro, M. Booth, A.V. Krivov, G. Cugno, T.K. Henning, A. Quirrenbach, A.M. Barcucci, E.C. Matthews, H.L. Ruh, J.M. Stone (2022): Planet populations inferred from debris discs. Insights from 178 debris systems in the ISPY, LEECH and LIStEN planet-hunting surveys. A&A 659, A135
    https://ui.adsabs.harvard.edu/abs/2022A%26A...659A.135P/abstract
  20. T.A. Stuber, S. Wolf (2022): The impact of the presence of water ice on the analysis of debris disk observations. A&A 658, A121
    https://ui.adsabs.harvard.edu/abs/2022A%26A...658A.121S/abstract
  21. A. Potapov, M. McCoustra (2021): Physics and Chemistry on the Surface of Cosmic Dust Grains: A Laboratory View. Int. Rev. Phys. Chem. 40, 299
    https://ui.adsabs.harvard.edu/abs/2021arXiv210501387P/abstract
  22. A. Potapov, S. Krasnokutski, C. Jäger, T. Henning (2021): A New "Non-energetic" Route to Complex Organic Molecules in Astrophysical Environments: The C + H2O → H2CO Solid-state Reaction. ApJ 920, 111
    https://ui.adsabs.harvard.edu/abs/2021ApJ...920..111P/abstract
  23. J.B. Lovell, S. Marino, M.C. Wyatt, G.M. Kennedy, M.A. MacGregor, K. Stapelfeldt, B. Dent, J. Krist, L. Matrà, Q. Kral, O. Panić, T.D. Pearce, D. Wilner (2021): High resolution ALMA and HST images of q1 Eri: an asymmetric debris disc with an eccentric Jupiter. MNRAS 506, 1978−2001
    https://ui.adsabs.harvard.edu/abs/2021MNRAS.506.1978L/abstract
  24. V. Faramaz, S. Marino, M. Booth, L. Matrà, E.E. Mamajek, G. Bryden, K.R. Stapelfeldt, S. Casassus, J. Cuadra, A.S. Hales, A. Zurlo (2021): A Detailed Characterization of HR 8799's Debris Disk with ALMA in Band 7. AJ 161, 271
    https://ui.adsabs.harvard.edu/abs/2021AJ....161..271F/abstract
  25. D. Fulvio, A. Potapov, J. He, T. Henning (2021): Astrochemical Pathways to Complex Organic and Prebiotic Molecules: Experimental Perspectives for In Situ Solid-State Studies. Life 11, 568
    https://doi.org/10.3390/life11060568
  26. T.D. Pearce, H. Beust, V. Faramaz, M. Booth, A.V. Krivov, T. Löhne, P.P. Poblete (2021): Fomalhaut b could be massive and sculpting the narrow, eccentric debris disc, if in mean-motion resonance with it. MNRAS 503, 4767−4786
    https://ui.adsabs.harvard.edu/abs/2021MNRAS.tmp..759P/abstract
  27. A. Musso Barcucci, R. Launhardt, A. Müller, G.M. Kennedy, R. van Boekel, T. Henning, H.L. Ruh, S. Marino, T.D. Pearce, S.S. Brems, S. Ertel, E.A. Spalding (2021): LIStEN: L' band Imaging Survey for Exoplanets in the North. A&A 645, A88
    https://ui.adsabs.harvard.edu/abs/2021A&A...645A..88M/abstract
  28. M. Booth, C. del Burgo, V.V. Hambaryan (2021): The Age of the Carina Young Association and Potential Membership of HD 95086. MNRAS 500, 5552−5560
    https://ui.adsabs.harvard.edu/abs/2021MNRAS.500.5552B/abstract
  29. A.V. Krivov, M.C. Wyatt (2021): Solution to the debris disc mass problem: planetesimals are born small? MNRAS 500, 718−735
    https://ui.adsabs.harvard.edu/abs/2021MNRAS.500..718K/abstract
  30. M. Booth, M. Schulz, A.V. Krivov, S. Marino, T.D. Pearce, R. Launhardt (2021): Resolving the outer ring of HD 38206 using ALMA and constraining limits on planets in the system. MNRAS 500, 1604−1611
    https://ui.adsabs.harvard.edu/abs/2021MNRAS.500.1604B/abstract
  31. A. Potapov, J. Bouwman, C. Jäger, T. Henning (2021): Dust/ice mixing in cold regions and solid-state water in the diffuse interstellar medium. Nature Astronomy 5, 78
    https://ui.adsabs.harvard.edu/abs/2021NatAs...5...78P/abstract
  32. L. O’Rourke, Ph. Heinisch, J. Blum, S. Fornasier, G. Filacchione, H.V. Hoang, M. Ciarniello, A. Raponi, B. Gundlach, R.A. Blasco, B. Grieger, K.-H. Glassmeier, M. Küppers, A. Rotundi, O. Groussin, D. Bockelée-Morvan, H.-U. Auster, N. Oklay, G. Paar, M. del Pilar Caballo Perucha, G. Kovacs, L. Jorda, J.-B. Vincent, F. Capaccioni, N. Biver, J.Wm. Parker, C. Tubiana, H. Sierks (2020): The Philae lander reveals low-strength primitive ice inside cometary boulders. Nature 586, 697−701
    https://www.nature.com/articles/s41586-020-2834-3
  33. P. Luppe, A.V. Krivov, M. Booth, J.-F. Lestrade (2020): Observability of Dusty Debris Discs around M-stars. MNRAS 499, 3932−3942
    https://ui.adsabs.harvard.edu/abs/2020MNRAS.499.3932L/abstract
  34. F. Kirchschlager, S. Ertel, S. Wolf, A. Matter, A.V. Krivov (2020): First L band detection of hot exozodiacal dust with VLTI/MATISSE. MNRAS: Letters 499, L47−L52
    https://ui.adsabs.harvard.edu/abs/2020MNRAS.499L..47K/abstract
  35. T.D. Pearce, A.V. Krivov, M. Booth (2020): Gas trapping of hot dust around main-sequence stars. MNRAS 498, 2798−2813
    https://ui.adsabs.harvard.edu/abs/2020MNRAS.498.2798P/abstract
  36. T. Löhne (2020): Relating grain size distributions in circumstellar discs to the spectral index at millimetre wavelengths. A&A 641, A75
    https://ui.adsabs.harvard.edu/abs/2020A&A...641A..75L/abstract
  37. I.L. San Sebastián, A. Dolff, J. Blum, M.G. Parisi, S. Kothe (2020): The tensile strength of compressed dust samples and the catastrophic disruption threshold of pre-planetary matter. MNRAS 497, 2418−2424
    https://ui.adsabs.harvard.edu/abs/2020MNRAS.497.2418S/abstract
  38. A. Potapov, C. Jäger, T. Henning (2020): Ice coverage of dust grains in cold astrophysical environments. Phys. Rev. L. 124, 221103
    https://ui.adsabs.harvard.edu/abs/2020PhRvL.124v1103P/abstract
  39. A. Potapov, C. Jäger, T. Henning (2020): Thermal formation of ammonium carbamate on the surface of laboratory analogs of carbonaceous grains in protostellar envelopes and planet-forming disks. ApJ 894, 110
    https://ui.adsabs.harvard.edu/abs/2020ApJ...894..110P/abstract
  40. J.P. Marshall, N. Pawellek, G.M. Kennedy, P. Scicluna, A.V. Krivov (2019): Inferring the size scales of planetary systems using resolved debris discs. Mem. S.A.It. 90, 543−548
    https://ui.adsabs.harvard.edu/abs/2019MmSAI..90..543M/abstract
  41. D. Schmidt, K. Pollok, G. Matthäus, S. Nolte, F. Langenhorst (2019): Nanodeformation in enstatite single crystals: Simulation of micrometeoroid impacts by femtosecond pulsed laser experiments. Geochemistry 79, 125542
    https://doi.org/10.1016/j.chemer.2019.125542
  42. J. Sende, T. Löhne (2019): Twisted debris: how differential secular perturbations shape debris disks. A&A 631, A141
    https://ui.adsabs.harvard.edu/abs/2019A&A...631A.141S/abstract
  43. V. Faramaz, J. Krist, K.R. Stapelfeldt, G. Bryden, E.E. Mamajek, L. Matrà, M. Booth, K. Flaherty, A.S. Hales, A.M. Hughes, A. Bayo, S. Casassus, J. Cuadra, J. Olofsson, K.Y.L. Su, D.J. Wilner (2019): From Scattered-light to Millimeter Emission: A Comprehensive View of the Gigayear-old System of HD 202628 and its Eccentric Debris Ring. AJ 158, 162
    https://ui.adsabs.harvard.edu/abs/2019AJ....158..162F/abstract
  44. M. Kim, S. Wolf, A. Potapov, H. Mutschke, C. Jäger (2019): Constraining the detectability of water ice in debris disks. A&A 629, A141
    https://ui.adsabs.harvard.edu/abs/2019A&A...629A.141K/abstract
  45. P. Heinisch, H.-U. Auster, B. Gundlach, J. Blum, C. Güttler, C. Tubiana, H. Sierks, M. Hilchenbach, J. Biele, I. Richter, K.H. Glassmeier (2019): Compressive strength of comet 67P/Churyumov–Gerasimenko derived from Philae surface contacts. A&A 630, A2
    https://ui.adsabs.harvard.edu/abs/2019A&A...630A...2H/abstract
  46. A.G. Sepulveda, L. Matrà, G.M. Kennedy, C. del Burgo, K.I. Öberg, D.J. Wilner, S. Marino, M. Booth, J.M. Carpenter, C.L. Davies, W.R.F. Dent, S. Ertel, J.-F. Lestrade, J.P. Marshall, J. Milli, M.C. Wyatt, M.A. MacGregor, B.C. Matthews (2019): The REASONS Survey: Resolved Millimeter Observations of a Large Debris Disk Around the Nearby F Star HD 170773. ApJ 881, 84
    https://ui.adsabs.harvard.edu/abs/2019ApJ...881...84S/abstract
  47. A. Potapov, C. Jäger, T. Henning (2019): Photodesorption of water ice from dust grains and thermal desorption of cometary ices studied by the INSIDE experiment. ApJ 880, 12
    https://ui.adsabs.harvard.edu/abs/2019ApJ...880...12P/abstract
  48. N. Pawellek, A. Moór, I Pascucci, A.V. Krivov (2019): Dust spreading in debris discs: do small grains cling on to their birth environment? MNRAS 487, 5874−5888
    https://ui.adsabs.harvard.edu/abs/2019MNRAS.tmp.1645P/abstract
  49. A. Bayo, J. Olofsson, L. Matrà, J.C. Beamín, J. Gallardo, I. de Gregorio-Monsalvo, M. Booth, C. Zamora, D. Iglesias, Th. Henning, M.R. Schreiber, C. Cáceres (2019): Sub-millimeter non-contaminated detection of the disc around TWA 7 by ALMA. MNRAS 486, 5552−5557
    https://ui.adsabs.harvard.edu/abs/2019MNRAS.486.5552B/abstract
  50. A. Potapov, P. Theulé, C. Jäger, T. Henning (2019): Evidence of surface catalytic effect on cosmic dust grain analogues: the ammonia and carbon dioxide surface reaction. ApJL 878, L20
    https://ui.adsabs.harvard.edu/abs/2019ApJ...878L..20P/abstract
  51. H. Mutschke, P. Mohr (2019): Far-infrared continuum absorption of forsterite and enstatite at low temperatures. A&A 625, A61
    https://ui.adsabs.harvard.edu/abs/2019A&A...625A..61M/abstract
  52. S. Marino, B. Yelverton, M. Booth, V. Faramaz, G.M. Kennedy, L. Matrà, M.C. Wyatt (2019): A gap in HD 92945’s broad planetesimal disc revealed by ALMA. MNRAS 484, 1257−1269
    http://adsabs.harvard.edu/abs/2019MNRAS.484.1257M
  53. F. Geiler, A. Krivov, M. Booth, T. Löhne (2019): The Scattered Disc of HR 8799. MNRAS 483, 332−341
    http://adsabs.harvard.edu/abs/2019MNRAS.483..332G
  54. M. Booth, L Matrà, K.Y.L. Su, Q. Kral, A.S. Hales, W.R.F. Dent, A.M. Hughes, M.A. MacGregor, T. Löhne, D.J. Wilner (2019): Deep ALMA Search for CO Gas in the HD 95086 Debris Disc. MNRAS 482, 3443−3452
    http://adsabs.harvard.edu/abs/2019MNRAS.482.3443B
  55. H. Katsuragi, J. Blum (2018): Impact-induced energy transfer and dissipation in granular clusters under microgravity conditions. Phys. Rev. Lett. 121, 208001
    https://journals.aps.org/prl/abstract/10.1103/PhysRevLett.121.208001
  56. M. Kim, S. Wolf, T. Löhne, F. Kirchschlager, A.V. Krivov (2018): Impact of planetesimal eccentricities and material strength on the appearance of eccentric debris disks. A&A 618, A38
    http://adsabs.harvard.edu/abs/2018A%26A...618A..38K
  57. D. Häßner, H. Mutschke, J. Blum, T. Zeller, B. Gundlach (2018): Laboratory measurements of the sub-millimetre opacity of amorphous and micro-particulate H2O ices for temperatures above 80 K. MNRAS 481, 5022−5033
    http://adsabs.harvard.edu/abs/2018MNRAS.481.5022H
  58. A. Potapov, C. Jäger, T. Henning (2018): Temperature programmed desorption of water ice from the surface of amorphous carbon and silicate grains as related to planet-forming disks. ApJ 865, 58
    http://adsabs.harvard.edu/abs/2018ApJ...865...58P
  59. V. Faramaz, G. Bryden, K.R. Stapelfeldt, M. Booth, A. Bayo, H. Beust, S. Casassus, J. Cuadra, A. Hales, A.M. Hughes, J. Olofsson, K.Y.L. Su, D.J. Wilner (2018): Is there really a debris disc around ζ² Reticuli? MNRAS 481, 44−48
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