Add to ORKGBismuth has long been a prototypical system for investigating phase transformations and melting at high pressure. Despite decades of experimental study, however, the lattice-level response of Bi to rapid (shock) compression and the relationship between structures occurring dynamically and those observed during slow (static) compression, are still not clearly understood. We have determined the structural response of shock-compressed Bi to 68 GPa using femtosecond X-ray diffraction, thereby revealing the phase transition sequence and equation-of-state in unprecedented detail for the first time. We show that shocked-Bi exhibits a marked departure from equilibrium behavior - the incommensurate Bi-III phase is not observed, but rather a new meta...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
The evolution of bismuth crystal structure upon excitation of its A(1g) phonon has been intensely st...
International audienceBismuth has long been a prototypical system for investigating phase transforma...
X-ray free electron laser (XFEL) sources have revolutionized our capability to study ultrafast mater...
The melting of bismuth in response to shock compression has been studied using in situ femtosecond x...
The melting of bismuth in response to shock compression has been studied using in situ femtosecond x...
The ability to diagnose the structure of a material at extreme conditions of high-pressure and high...
We present evidence for phase transitions in shock-compressed bismuth using the SPEDX x-ray diffract...
Preheated Bi (296-532 K) was ramp compressed with 15-35 ns rise times to a peak stress of similar to...
It is qualitatively well known that kinetics related to nucleation and growth can shift apparent pha...
It is qualitatively well known that kinetics related to nucleation and growth can shift apparent pha...
Abstract It is qualitatively well known that kinetics related to nucleation and growth can shift app...
textThe response of materials under extreme temperature and pressure conditions is a topic of great ...
textThe response of materials under extreme temperature and pressure conditions is a topic of great ...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
The evolution of bismuth crystal structure upon excitation of its A(1g) phonon has been intensely st...
International audienceBismuth has long been a prototypical system for investigating phase transforma...
X-ray free electron laser (XFEL) sources have revolutionized our capability to study ultrafast mater...
The melting of bismuth in response to shock compression has been studied using in situ femtosecond x...
The melting of bismuth in response to shock compression has been studied using in situ femtosecond x...
The ability to diagnose the structure of a material at extreme conditions of high-pressure and high...
We present evidence for phase transitions in shock-compressed bismuth using the SPEDX x-ray diffract...
Preheated Bi (296-532 K) was ramp compressed with 15-35 ns rise times to a peak stress of similar to...
It is qualitatively well known that kinetics related to nucleation and growth can shift apparent pha...
It is qualitatively well known that kinetics related to nucleation and growth can shift apparent pha...
Abstract It is qualitatively well known that kinetics related to nucleation and growth can shift app...
textThe response of materials under extreme temperature and pressure conditions is a topic of great ...
textThe response of materials under extreme temperature and pressure conditions is a topic of great ...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
In this paper we report the results of a detailed experimental study of samples composed of micromet...
The evolution of bismuth crystal structure upon excitation of its A(1g) phonon has been intensely st...