Morphology of Lakes of the Central Tunguska Plateau (Krasnoyarsk Krai, Evenkiya): New Data on the Problem of the Tunguska Event of 1908
D. Y. Rogozin, P. S. Krylov, A. N. Dautov, A. V. Darin, I. A. Kalugin, A. V. Meydus & A. G. Degermendzhy Doklady Earth SciencesPublished: 02 May 2023 LINK “The bottom morphology and thickness of…
Computation of a possible Tunguska’s strewn fieldOPEN ACCESS
Albino Carbognani, Mario Di Martino, Giovanna Stirpe Update (25 October 2023): Icarus, In Press, Journal Pre-proof, Available online 25 October 2023LINK draft version (10 October 2023): PDF (OPEN ACCESS) “On June 30, 1908, at about…
Shock Wave Effects from the Impacts of Cosmic Objects with Diameters from 20 m to 3 km
D. O. Glazachev, O. P. Popova, E. D. Podobnaya, N. A. Artemieva, V. V. Shuvalov & V. V. Svetsov Izvestiya, Physics of the Solid Earth, Volume 57, pages 698–709 (2021)Published: 03 November 2021 LINK “Destruction…
Fragmentation of the Tunguska cosmic body
O.G.Gladysheva Planetary and Space ScienceAvailable online 10 March 2021 LINK “Highlights Layers of the cometary nucleus are separated by refractory airtight shells. The fragmentation of comets connected with the sublimation of water and volatiles. The…
The Tunguska event
O.G. Gladysheva IcarusIn Press, Journal Pre-proof, Available online 12 May 2020 LINK “Highlights • Calculations have shown that comets can disintegrate at an altitude of ~10 km.• Fragments of comet substance reached the Earth’s surface.• The…
On the possibility of through passage of asteroid bodies across the Earth’s atmosphereOPEN ACCESS
Daniil E Khrennikov, Andrei K Titov, Alexander E Ershov, Vladimir I Pariev, Sergei V Karpov Monthly Notices of the Royal Astronomical Society, staa329 LINK Update (29 September 2020): PDF (OPEN ACCESS) “We have studied the…
Upper atmosphere effects after the entry of small cosmic bodies: Dust trains, plumes, and atmospheric disturbances
N. Artemieva, V.V. Shuvalov, V.M. Khazins Icarus Available online 4 March 2019 LINK “In this paper we present the results of numerical modeling of the Chelyabinsk dust train during the first 3 min after the meteoroid…
Uncertainty Quantification in Continuous Fragmentation Airburst Models
S. McMullan, G.S. Collins Icarus Available online 28 February 2019 LINK “Highlights • Comparison of three existing semi-analytical airburst models • Models can be calibrated to data but diverge when upscaled • Investigations into how…
A Model for Thermal Radiation from the Tunguska Airburst
Christopher O. Johnston, Eric C. Stern Icarus Available online 7 February 2019 LINK “Highlights • Radiative heating to the ground from the Tunguska event modeled • Applies recently-developed computational fluid dynamic and radiation models •…
Tunguska eyewitness accounts, injuries, and casualties
Peter Jenniskens, Olga P. Popova, Dmitry O. Glazachev, Elena D. Podobnaya, Anna P. Kartashova Icarus In Press, Accepted Manuscript, Available online 5 January 2019 LINK “Highlights • A literature study of over 700 eyewitness accounts…
Probabilistic Assessment of Tunguska-scale Asteroid ImpactsOPEN ACCESS
F. Wheeler, Donovan L. Mathias Icarus Available online 6 December 2018 LINK (OPEN ACCESS) PDF (OPEN ACCESS) “Highlights • The PAIR model is used to assess 50 million Tunguska-scale asteroid impacts with probabilistically distributed properties….
Hydrocode simulations of asteroid airbursts and constraints for TunguskaOPEN ACCESS
Darrel K. Robertson, Donovan L. Mathias Icarus Available online 21 October 2018 LINK (OPEN ACCESS) “Highlights • Hydrocode simulations of asteroid airbursts of interest to planetary defense. • Both asteroids and comets plausible for Tunguska…
The atmospheric fragmentation of the 1908 Tunguska Cosmic Body: reconsidering the possibility of a ground impactOPEN ACCESS
L. Foschini, L. Gasperini, C. Stanghellini, G. Longo, R. Serra, E. Bonatti, A. Polonia, G. Stanghellini PDF (OPEN ACCESS) revised version: 11 February 2019 “The 1908 June 30 Tunguska Event (TE) is one of the…
Determination of the height of the “meteoric explosion”
V. V. Shuvalov, O. P. Popova, V. V. Svettsov, I. A. Trubetskaya… Solar System Research January 2016, Volume 50, Issue 1, pp 1-12 First online: 22 January 2016 (Original Russian Text © V.V. Shuvalov, O.P….
Comment on ”John’s stone: A possible fragment of the 1908 Tunguska meteorite” (Anfinogenov et al., 2014, Icarus 243, 139-147)
Henning Haack, Richard C. Greenwood, Henner Busemann Icarus In Press, Accepted Manuscript, Available online 25 September 2015 LINK “… Consistent with the O study, the noble gases do not provide any evidence for an extraterrestrial…
Origin of John’s Stone: A quartzitic boulder from the site of the 1908 Tunguska (Siberia) Explosion
Enrico Bonatti, Dee Breger, Tommaso Di Rocco, Fulvio Franchi, Luca Gasperini, Alina Polonia, John Anfinogenov, Yana Anfinogenova Icarus In Press, Accepted Manuscript, Available online 18 June 2015 LINK
