Skip to Main Content
Skip Nav Destination

Nanoscale records of ancient shock deformation: Reidite (ZrSiO4) in sandstone at the Ordovician Rock Elm impact crater

Geology (2015) 43 (4): 315–318.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Logoisk impact structure, Belarus: Shock transformation of zircon
Meteoritics & Planetary Science (2024) 59 (1): 88.
Zircon-to-reidite phase transition enhanced by minor radiation damage: Implications for hypervelocity impacts
Chemical Geology (2024) 654: 122041.
Microstructural changes and Pb mobility during the zircon to reidite transformation: Implications for planetary impact chronology
American Mineralogist (2023) 108 (8): 1516.
Phase transition of hafnon, HfSiO4, at high pressure
Journal of the American Ceramic Society (2023) 106 (10): 6292.
Quantifying the effect of late bombardment on terrestrial zircons
Earth and Planetary Science Letters (2023) 604: 118007.
In Situ Raman Spectroscopy and DFT Studies of the Phase Transition from Zircon to Reidite at High P–T Conditions
Minerals (2022) 12 (12): 1618.
Comparison of reidite formation between zircon bulk and nanoparticles
Journal of Physics and Chemistry of Solids (2022) 161: 110475.
Asymmetric shock deformation at the Spider impact structure, Western Australia
Meteoritics & Planetary Science (2021) 56 (2): 331.
Stress and strain during shock metamorphism
Icarus (2021) 370: 114687.
Natural and experimental high-pressure, shock-produced terrestrial and extraterrestrial materials
Progress in Earth and Planetary Science (2021) 8 (1)
Phase heritage during replacement reactions in Ti-bearing minerals
Contributions to Mineralogy and Petrology (2021) 176 (3)
Exceptional preservation of reidite in the Rochechouart impact structure, France: New insights into shock deformation and phase transition of zircon
Meteoritics & Planetary Science (2021) 56 (10): 1795.
Dendritic reidite from the Chesapeake Bay impact horizon, Ocean Drilling Program Site 1073 (offshore northeastern USA): A fingerprint of distal ejecta?
Geology (2021) 49 (2): 201.
Shock deformation in zircon grains from the Mien impact structure, Sweden
Meteoritics & Planetary Science (2021) 56 (2): 362.
The variation and visualisation of elastic anisotropy in rock-forming minerals
Solid Earth (2020) 11 (2): 259.
Petalite postdating spodumene in pegmatite as a consequence of the ~2.02 Ga meteorite impact in the Vredefort structure, southern Africa
Lithos (2020) 376-377: 105760.
Riesite, a New High Pressure Polymorph of TiO2 from the Ries Impact Structure
Minerals (2020) 10 (1): 78.
Discovery of Reidite in the Lunar Meteorite Sayh al Uhaymir 169
Geophysical Research Letters (2020) 47 (21)
Shock metamorphic history of >4 Ga Apollo 14 and 15 zircons
Meteoritics & Planetary Science (2019) 54 (1): 181.
Shocked quartz in polymict impact breccia from the Upper Cretaceous Yallalie impact structure in Western Australia
Meteoritics & Planetary Science (2019) 54 (3): 621.
Nanoscale constraints on the shock-induced transformation of zircon to reidite
Chemical Geology (2019) 507: 85.
New shock microstructures in titanite (CaTiSiO5) from the peak ring of the Chicxulub impact structure, Mexico
Contributions to Mineralogy and Petrology (2019) 174 (5)
Linking shock textures revealed by BSE, CL, and EBSD with U‐Pb data (LA‐ICP‐MS and SIMS) from zircon from the Araguainha impact structure, Brazil
Meteoritics & Planetary Science (2019) 54 (10): 2286.
High-pressure minerals
American Mineralogist (2019) 104 (12): 1701.
Detrital shocked zircon provides first radiometric age constraint (<1472 Ma) for the Santa Fe impact structure, New Mexico, USA
GSA Bulletin (2019) 131 (5-6): 845.
Zircon Microstructures Record Deformation History of Shock- and Tectonically-generated Pseudotachylites: a Case Study from the Vredefort Impact Structure, South Africa
Journal of Petrology (2019) 60 (12): 2529.
Documentation of shock features in impactites from the Dhala impact structure, India
Meteoritics & Planetary Science (2019) 54 (10): 2312.
A new U-Pb age for shock-recrystallised zircon from the Lappajärvi impact crater, Finland, and implications for the accurate dating of impact events
Geochimica et Cosmochimica Acta (2019) 245: 479.
Evidence of impact melting and post-impact decomposition of sedimentary target rocks from the Steen River impact structure, Alberta, Canada
Earth and Planetary Science Letters (2019) 515: 173.
New insights into the zircon-reidite phase transition
American Mineralogist (2019) 104 (6): 830.
U–Th–Pb systematics in zircon and apatite from the Chicxulub impact crater, Yucatán, Mexico
Geological Magazine (2018) 155 (6): 1330.
New clues from Earth’s most elusive impact crater: Evidence of reidite in Australasian tektites from Thailand
Geology (2018) 46 (3): 203.
Thermodynamic properties of ZrSiO4 zircon and reidite and of cotunnite-type ZrO2 with application to high-pressure high-temperature phase relations in ZrSiO4
Physics of the Earth and Planetary Interiors (2018) 281: 1.
Microstructural dynamics of central uplifts: Reidite offset by zircon twins at the Woodleigh impact structure, Australia
Geology (2018) 46 (11): 983.
High‐pressure minerals in shocked meteorites
Meteoritics & Planetary Science (2017) 52 (9): 2017.
Microstructural constraints on the mechanisms of the transformation to reidite in naturally shocked zircon
Contributions to Mineralogy and Petrology (2017) 172 (1)
A pressure-temperature phase diagram for zircon at extreme conditions
Earth-Science Reviews (2017) 165: 185.
Shocked monazite chronometry: integrating microstructural and in situ isotopic age data for determining precise impact ages
Contributions to Mineralogy and Petrology (2017) 172 (2-3)
Deformation Behavior across the Zircon-Scheelite Phase Transition
Physical Review Letters (2016) 117 (13)
Empirical constraints on shock features in monazite using shocked zircon inclusions
Geology (2016) 44 (8): 635.
Nanoscale deformation twinning in xenotime, a new shocked mineral, from the Santa Fe impact structure (New Mexico, USA)
Geology (2016) 44 (10): 803.
Transformations to granular zircon revealed: Twinning, reidite, and ZrO2in shocked zircon from Meteor Crater (Arizona, USA)
Geology (2016) 44 (9): 703.
Precambrian reidite discovered in shocked zircon from the Stac Fada impactite, Scotland
Geology (2015) 43 (10): 899.
A terrestrial perspective on usingex situshocked zircons to date lunar impacts
Geology (2015) 43 (11): 999.
Close Modal

or Create an Account

Close Modal
Close Modal