Experimental observation of open structures in elemental magnesium at terapascal pressures
Investigating how solid matter behaves at enormous pressures, such as those found in the deep interiors of giant planets, is a great experimental challenge. Over the past decade, computational predictions have revealed that compression to terapascal pressures may bring about counter-intuitive change...
Autors principals: | Gorman, MG, Elatresh, S, Lazicki, A, Cormier, MME, Bonev, SA, McGonegle, D, Briggs, R, Coleman, AL, Rothman, SD, Peacock, L, Bernier, JV, Coppari, F, Braun, DG, Rygg, JR, Fratanduono, DE, Hoffmann, R, Collins, GW, Wark, JS, Smith, RF, Eggert, JH, McMahon, MI |
---|---|
Format: | Journal article |
Idioma: | English |
Publicat: |
Springer Nature
2022
|
Ítems similars
-
Metastability of diamond ramp-compressed to 2TPa
per: Lazicki, A, et al.
Publicat: (2021) -
Recovery of metastable dense Bi synthesized by shock compression
per: Gorman, MG, et al.
Publicat: (2019) -
Extended X-ray absorption fine structure of dynamically-compressed copper up to 1 terapascal
per: H. Sio, et al.
Publicat: (2023-11-01) -
Femtosecond diffraction studies of solid and liquid phase changes in shock-compressed bismuth
per: Gorman, MG, et al.
Publicat: (2018) -
Identification of phase transitions and metastability in dynamically compressed antimony using ultrafast x-ray diffraction
per: Coleman, AL, et al.
Publicat: (2019)