Add to ORKGWe provide a semiquantitative tool, derived from first-principles simulations, for answering the question of whether certain types of defects in solid 4He support mass superflow. Although ideal crystals of 4He are not supersolid, the gap for vacancy creation closes when applying a moderate stress. While a homogeneous system becomes unstable at this point, the stressed core of crystalline defects (dislocations and grain boundaries) can turn superfluid
By large-scale quantum Monte Carlo simulations we show that grain boundaries in 4He crystals are gen...
We use a quantum lattice gas model to describe essential aspects of the motion of 4He atoms and of 3...
For nearly half a century the supersolid phase of matter has remained mysterious, not only eluding e...
We provide a semiquantitative tool, derived from first-principles simulations, for answering the que...
We provide a semiquantitative tool, derived from first-principles simulations, for answering the que...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
The possibility of a supersolid state of matter, i.e., a crystalline solid exhibiting superfluid pro...
For nearly half a century the supersolid phase of matter has remained mysterious, not only eluding e...
By large-scale quantum Monte Carlo simulations we show that grain boundaries in 4He crystals are gen...
It has been recently reported that there might be supersolidity of 4He around the temperature range:...
AbstractWe seek an explanation for the observed non-classical rotational inertia in solid Helium-4. ...
Using first-principles simulations for the probability density of finding a 3He atom in the vicinity...
Defects are believed to play a fundamental role in the supersolid state of 4 He. We report on studie...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
By large-scale quantum Monte Carlo simulations we show that grain boundaries in 4He crystals are gen...
We use a quantum lattice gas model to describe essential aspects of the motion of 4He atoms and of 3...
For nearly half a century the supersolid phase of matter has remained mysterious, not only eluding e...
We provide a semiquantitative tool, derived from first-principles simulations, for answering the que...
We provide a semiquantitative tool, derived from first-principles simulations, for answering the que...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
The possibility of a supersolid state of matter, i.e., a crystalline solid exhibiting superfluid pro...
For nearly half a century the supersolid phase of matter has remained mysterious, not only eluding e...
By large-scale quantum Monte Carlo simulations we show that grain boundaries in 4He crystals are gen...
It has been recently reported that there might be supersolidity of 4He around the temperature range:...
AbstractWe seek an explanation for the observed non-classical rotational inertia in solid Helium-4. ...
Using first-principles simulations for the probability density of finding a 3He atom in the vicinity...
Defects are believed to play a fundamental role in the supersolid state of 4 He. We report on studie...
The supersolid state of matter, exhibiting nondissipative flow in solids, has been elusive for 35 ye...
By large-scale quantum Monte Carlo simulations we show that grain boundaries in 4He crystals are gen...
We use a quantum lattice gas model to describe essential aspects of the motion of 4He atoms and of 3...
For nearly half a century the supersolid phase of matter has remained mysterious, not only eluding e...