Your search keyword '"Mills Jr., Allen P."' showing total 7 results

1. Conditions for obtaining positronium Bose–Einstein condensation in a micron-sized cavity.

Author

Asaro, Marcus X., Herrera, Steven, Fuentes-Garcia, Melina, Cecchini, Gabriel G., Membreno, Erick E., Greaves, Rod G., and Mills Jr., Allen P.

Subjects

BOSE-Einstein condensation, POSITRONIUM, POROUS silica, FOCUSED ion beams, NANODIAMONDS, POROUS materials, DIAMOND crystals

Abstract

The quest for making a triplet positronium (Ps) Bose–Einstein condensate confined in a micron-sized cavity in a material such as porous silica faces at least three interrelated problems: (1) About 10 7 spin polarized Ps atoms must be injected into a small cavity within a porous solid material without vaporizing it. (2) It is known that Ps atoms confined in 30–100 nm diameter cavities in porous silica do not remain in the gas phase, but become stuck to the cavity walls at room temperature (Cooper et al., Phys. Rev. B 97:205302, 2018). (3) Cooling a gas of Ps atoms to cryogenic temperatures by energy exchange with the walls would be a very slow process (Saito and Hyodo, in: Surko, Gianturco (eds) New Directions in Antimatter Chemistry and Physics, Springer Dordrecht, Netherlands, 2001) because of the relatively low collision rate with the walls and the large mismatch between the masses of the Ps and the wall atoms. A possible solution of these difficulties is presented, based on cooling the implanted positrons in an isotopically pure diamond single crystal target, subsequent saturating of the wall Ps coverage so that a substantial portion of the Ps will be in the gaseous state, and thermalizing the gas-phase Ps via collisions with the low effective mass wall Ps. A design process for the target material is outlined as well, including preliminary results in porous cavity fabrication using focused ion beam milling. [ABSTRACT FROM AUTHOR]

Published

2022

2. Memories of Jun Xu (June 24, 1957 - March 10, 2013).

Author

Mills Jr., Allen P. and Tolk, Norman H.

Subjects

GOVERNMENT laboratories, MEMORY, SCIENTISTS, ENTHUSIASM, ABILITY

Abstract

Jun Xu was awarded his PhD in Physics under Prof. Norman Tolk at Vanderbilt University and thereafter was an insightful, resourceful, and very successful researcher at Oak Ridge National Laboratory till his death in 2013. Several instances of his habitual cheerful enthusiasm as a colleague and friend and his great skill as a scientist are collected here from various sources and from notes provided by some of his collaborators. [ABSTRACT FROM AUTHOR]

Published

2019

3. Proposal for a slow positron facility at Jefferson National Laboratory.

Author

Mills Jr., Allen P.

Subjects

POSITRONS, POSITRON beams, ANTIPARTICLES, LOW energy electron diffraction, ELECTRON diffraction

Abstract

One goal of the JPos-17 International Workshop on Physics with Positrons was to ascertain whether it would be a good idea to expand the mission of the Thomas Jefferson National Accelerator Facility (JLab) to include science with low energy (i.e. "slow") spin polarized positrons. It is probably true that experimentation with slow positrons would potentially have wide-ranging benefits comparable to those obtained with neutron and x-ray scattering, but it is certain that the full range of these benefits will never be fully available without an infrastructure comparable to that of existing neutron and x-ray facilities. The role for Jefferson Laboratory would therefore be to provide and maintain (1) a dedicated set of machines for making and manipulating high intensity, high brightness beams of polarized slow positrons; (2) a suite of unique and easily used instruments of wide utility that will make efficient use of the positrons; and (3) a group of on-site positron scientists to provide scientific leadership, instrument development, and user support. In this note some examples will be given of the science that might make a serious investment in a positron facility worthwhile. At the same time, the lessons learned from various proposed and successful positron facilities will be presented for consideration. [ABSTRACT FROM AUTHOR]

Published

2018

4. Correction: Conditions for obtaining positronium Bose–Einstein condensation in a micron-sized cavity.

Author

Asaro, Marcus X., Herrera, Steven, Fuentes-Garcia, Melina, Cecchini, Gabriel G., Membreno, Erick E., Greaves, Rod G., and Mills Jr., Allen P.

Subjects

LINES of credit, BOSE-Einstein condensation, POSITRONIUM

Published

2022

5. A DNA-fuelled molecular machine made of DNA.

Author

Yurke, Bernard, Turberfield, Andrew J., Mills, Jr., Allen P., Simmel, Friedrich C., and Neumann, Jennifer L.

Subjects

DNA, DEOXYRIBOSE, NUCLEIC acids, MOLECULAR recognition

Abstract

Reports the construction of a DNA machine in which the DNA is used not only as a structural material, but also as fuel. Explanation of how the machine works; Role of molecular recognition between complementary strands of DNA.

Published

2000

6. Stephan Berko.

Author

Mills Jr., Allen P. and Canter, Karl F.

Subjects

PHYSICS teachers

Abstract

Presents an obituary for Stephan Berko, a professor of physics at Brandeis University and an innovator in the use of positrons to study condensed matter.

Published

1991

7. Positron Physics (Book).

Author

Mills Jr, Allen P.

Subjects

POSITRONS

Abstract

Reviews the book 'Positron Physics,' by M. Charlton and J.W. Humberston.

Published

2002