Abstract
While many high-energy physicists are planning giant colliding beams machines as the vessels to sail beyond the familiar waters of the Standard Model, others are testing alternate conveyances to explore the most fundamental issues of particle physics. Studies of proton decay, neutrino masses and oscillations, dark matter, high-energy astronomy, microwave background fluctuations, large-scale structure, and the physics of the early Universe could move the field far from the Standard Model shore. Just as zoologists and geologists once explored new lands together, high-energy physicists have been joined by nuclear physicists and astrophysicists who are interested in the experiments because of the relevance to their own disciplines.
Ayres, David;
[1]
Kolb, Edward W.;
[2]
University of Chicago (United States)]
- Argonne (United States)
- FERMILAB (United States)
Citation Formats
Ayres, David, Kolb, Edward W., and University of Chicago (United States)].
UNITED STATES: Particle and nuclear astrophysicists look to the future.
CERN: N. p.,
1994.
Web.
Ayres, David, Kolb, Edward W., & University of Chicago (United States)].
UNITED STATES: Particle and nuclear astrophysicists look to the future.
CERN.
Ayres, David, Kolb, Edward W., and University of Chicago (United States)].
1994.
"UNITED STATES: Particle and nuclear astrophysicists look to the future."
CERN.
@misc{etde_22518020,
title = {UNITED STATES: Particle and nuclear astrophysicists look to the future}
author = {Ayres, David, Kolb, Edward W., and University of Chicago (United States)]}
abstractNote = {While many high-energy physicists are planning giant colliding beams machines as the vessels to sail beyond the familiar waters of the Standard Model, others are testing alternate conveyances to explore the most fundamental issues of particle physics. Studies of proton decay, neutrino masses and oscillations, dark matter, high-energy astronomy, microwave background fluctuations, large-scale structure, and the physics of the early Universe could move the field far from the Standard Model shore. Just as zoologists and geologists once explored new lands together, high-energy physicists have been joined by nuclear physicists and astrophysicists who are interested in the experiments because of the relevance to their own disciplines.}
journal = []
issue = {10}
volume = {34}
journal type = {AC}
place = {CERN}
year = {1994}
month = {Dec}
}
title = {UNITED STATES: Particle and nuclear astrophysicists look to the future}
author = {Ayres, David, Kolb, Edward W., and University of Chicago (United States)]}
abstractNote = {While many high-energy physicists are planning giant colliding beams machines as the vessels to sail beyond the familiar waters of the Standard Model, others are testing alternate conveyances to explore the most fundamental issues of particle physics. Studies of proton decay, neutrino masses and oscillations, dark matter, high-energy astronomy, microwave background fluctuations, large-scale structure, and the physics of the early Universe could move the field far from the Standard Model shore. Just as zoologists and geologists once explored new lands together, high-energy physicists have been joined by nuclear physicists and astrophysicists who are interested in the experiments because of the relevance to their own disciplines.}
journal = []
issue = {10}
volume = {34}
journal type = {AC}
place = {CERN}
year = {1994}
month = {Dec}
}