Add to ORKGWe use the thermo-mechanical effect to create a chemical potential difference between two liquid reservoirs connected to each other through Vycor rods in series with solid hcp 4He to confirm that a DC flux of atoms takes place below 600 mK, but find that the flux falls abruptly in the vicinity of 80 mK. It is impossible to add density to a solid freshly made at 60 mK and samples freshly made at 60 mK do not allow mass flux, even when raised in temperature to 200 mK. Solids created above 300 mK and cooled to 60 mK accept added density and demonstrate finite mass flux
The thermomechanical effect in superfluid helium is used to create an initial chemical potential dif...
Abstract The small mass and significant zero point motion of solid 4 He make it very different from ...
At a pressure of ~25.7 bar, the flux F carried by solid 4_He for T \u3e 100 mK depends on the net c...
We use the thermo-mechanical effect to create a chemical potential difference between two liquid res...
Solid 4He has been created off the melting curve by growth at a nearly constant mass via the “blocke...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We observe a thermomechanical effect when a chemical-potential difference is created by a temperatur...
Using an apparatus that allows superfluid liquid 4_He to be in contact with hcp solid 4_He at pressu...
Solid 4He has been created off the melting curve by growth at a nearly constant mass via the “blocke...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We observe a thermomechanical effect when a chemical-potential difference is created by a temperatur...
This thesis presents data on experiments done with hcp 4He. The main focus is on the possibility of ...
Theoreticians agree that superfluidity can exist in a Bose solid. The experiments to detect such an ...
The thermomechanical effect in superfluid helium is used to create an initial chemical potential dif...
Abstract The small mass and significant zero point motion of solid 4 He make it very different from ...
At a pressure of ~25.7 bar, the flux F carried by solid 4_He for T \u3e 100 mK depends on the net c...
We use the thermo-mechanical effect to create a chemical potential difference between two liquid res...
Solid 4He has been created off the melting curve by growth at a nearly constant mass via the “blocke...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We observe a thermomechanical effect when a chemical-potential difference is created by a temperatur...
Using an apparatus that allows superfluid liquid 4_He to be in contact with hcp solid 4_He at pressu...
Solid 4He has been created off the melting curve by growth at a nearly constant mass via the “blocke...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We report studies of the growth of solid hcp 4He at pressures higher than the bulk freezing pressure...
We observe a thermomechanical effect when a chemical-potential difference is created by a temperatur...
This thesis presents data on experiments done with hcp 4He. The main focus is on the possibility of ...
Theoreticians agree that superfluidity can exist in a Bose solid. The experiments to detect such an ...
The thermomechanical effect in superfluid helium is used to create an initial chemical potential dif...
Abstract The small mass and significant zero point motion of solid 4 He make it very different from ...
At a pressure of ~25.7 bar, the flux F carried by solid 4_He for T \u3e 100 mK depends on the net c...