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1. Technological developments and accelerator improvements for the FRIB beam power ramp-up

Author

Wei, J, Alleman, C, Ao, H, Arend, B, Barofsky, D, Beher, S, Bollen, G, Bultman, N, Casagrande, F, Chang, W, Choi, Y, Cogan, S, Cole, P, Compton, C, Cortesi, M, Curtin, J, Davidson, K, Di Carlo, S, Du, X, Elliott, K, Ewert, B, Facco, A, Fila, A, Fukushima, K, Ganni, V, Ganshyn, A, Ginter, T, Glasmacher, T, Gonzalez, A, Hao, Y, Hartung, W, Hasan, N, Hausmann, M, Holland, K, Hseuh, HC, Ikegami, M, Jager, D, Jones, S, Joseph, N, Kanemura, T, Kim, SH, Knowles, C, Konomi, T, Kortum, B, Kulkarni, N, Kwan, E, Lange, T, Larmann, M, Larter, T, Laturkar, K, LaVere, M, Laxdal, RE, LeTourneau, J, Li, Z-Y, Lidia, S, Machicoane, G, Magsig, C, Manwiller, P, Marti, F, Maruta, T, Metzgar, E, Miller, S, Momozaki, Y, Mugerian, M, Morris, D, Nesterenko, I, Nguyen, C, Ostroumov, P, Patil, M, Plastun, A, Popielarski, L, Portillo, M, Powers, A, Priller, J, Rao, X, Reaume, M, Rodriguez, S, Rogers, S, Saito, K, Sherrill, BM, Smith, MK, Song, J, Steiner, M, Stolz, A, Tarasov, O, Tousignant, B, Walker, R, Wang, X, Wenstrom, J, West, G, Witgen, K, Wright, M, Xu, T, Yamazaki, Y, Zhang, T, Zhao, Q, Zhao, S, Hurh, P, Prestemon, S, and Shen, T

Subjects
Nuclear and Plasma Physics, Engineering, Synchrotrons and Accelerators, Physical Sciences, Nuclear & Particles Physics, Physical sciences
Abstract

The Facility for Rare Isotope Beams (FRIB) began operation with 1 kW beam power for scientific users in May 2022 upon completion of 8 years of project construction. The ramp-up to the ultimate beam power of 400 kW, planned over a 6-year period, will enable the facility to reach its full potential for scientific discovery in isotope science and applications. In December 2023, a record-high beam power of 10.4 kW uranium was delivered to the target. Technological developments and accelerator improvements are being made over the entire facility and are key to completion of the power ramp-up. Major technological developments entail the phased deployment of high-power beam-intercepting systems, including the charge strippers, the charge selection systems, the production target, and the beam dump, along with support systems, including non-conventional utilities (NCU) and remote handling facilities. Major accelerator improvements include renovations to aging legacy systems associated with experimental beam lines and system automation for improved operational efficiency and better machine availability. Experience must be gained to safely handle the increased radiological impacts associated with high beam power; extensive machine studies and advanced beam tuning procedures are needed to minimize uncontrolled beam losses for the desired operating conditions. This paper discusses the technological developments and accelerator improvements with emphasis on major R&D efforts.

Published
2024

3. Advances of the FRIB project

Author

Wei, J, Ao, H, Beher, S, Bultman, N, Casagrande, F, Cogan, S, Compton, C, Curtin, J, Dalesio, L, Davidson, K, Dixon, K, Facco, A, Ganni, V, Ganshyn, A, Gibson, P, Glasmacher, T, Hao, Y, Hodges, L, Holland, K, Hosoyama, K, Hseuh, H-C, Hussain, A, Ikegami, M, Jones, S, Kanemura, T, Kelly, M, Knudsen, P, Laxdal, RE, LeTourneau, J, Lidia, S, Machicoane, G, Marti, F, Miller, S, Momozaki, Y, Morris, D, Ostroumov, P, Popielarski, J, Popielarski, L, Prestemon, S, Priller, J, Ren, H, Russo, T, Saito, K, Stanley, S, Wiseman, M, Xu, T, and Yamazaki, Y

Subjects
Nuclear and Plasma Physics, Synchrotrons and Accelerators, Physical Sciences, Affordable and Clean Energy, Mathematical Sciences, Nuclear & Particles Physics, Mathematical sciences, Physical sciences
Abstract

The Facility for Rare Isotope Beams (FRIB) Project has entered the phase of beam commissioning starting from the room-temperature front end and the superconducting linac segment of first 15 cryomodules. With the newly commissioned helium refrigeration system supplying 4.5K liquid helium to the quarter-wave resonators and solenoids, the FRIB accelerator team achieved the sectional key performance parameters as designed ahead of schedule accelerating heavy ion beams above 20MeV/u energy. Thus, FRIB accelerator becomes world's highest-energy heavy ion linear accelerator. We also validated machine protection and personnel protection systems that will be crucial to the next phase of commissioning. FRIB is on track towards a national user facility at the power frontier with a beam power two orders of magnitude higher than operating heavy-ion facilities. This paper summarizes the status of accelerator design, technology development, construction, commissioning as well as path to operations and upgrades.

Published
2019

7. Comparing Information Theory Analysis With Cross‐Correlation and Minimum Variance Analysis of the Solar Wind Structures.

Author

Holland, K. M., Nykyri, H. K., Ma, X., and Wing, S.

Subjects
INTERPLANETARY magnetic fields, SOLAR magnetic fields, SPACE environment, INFORMATION theory, ION migration & velocity, SOLAR wind
Abstract

The space weather effects at the Earth's magnetosphere are mostly driven by the solar wind that carries the interplanetary magnetic field (IMF). In this paper, we use 2 years of data in the solar wind from lunar orbiting ARTEMIS and MMS spacecraft upstream of the Earth's bow shock to study the structure of the IMF. We determine the lag times of IMF structures and their dependence on spacecraft positions by conducting an information theory analysis and comparing it with two traditional analysis methods: cross‐correlation (CC) analysis and minimum variance of magnetic field analysis (MVAB). For the events with long time intervals (i.e., >4 hr) and with small‐spatial separation between the MMS and ARTEMIS along the yGSM‐direction (i.e., <40Re, where Re is the Earth's radius), the lag times based on the CC and the mutual information (MI) analyses statistically agree with each other, with p‐values of 1.675 × 10−7 and 4.833 × 10−9, with the confidence of 95%. Both the results based on MI and CC have a large deviation from the results from MVAB. For some of the events, such a deviation could be improved by taking the fast mode speed into account; however, p‐tests showed that they were not statistically significant to the 95% confidence level. Plain Language Summary: Typically, single‐point measurements from the Earth‐Sun Lagrange Point‐1 are used to forecast space weather. However, it is important to understand that multi‐point measurements are required to further understand and predict geo‐effective solar wind structures. Three analysis methods using multi‐point measurements from the MMS and THEMIS missions of large solar wind structures as they move from regions around the Moon to regions around Earth's bow shock, are presented and compared in this paper. Information theory analysis (specifically Mutual Information) determines dependence between two variables by quantifying the entropy (uncertainty) in the two variables. Minimum variance analysis calculates the direction of least change in a magnetic field and assumes the solar wind is propagating in that direction. Lag time is calculated by taking the dot products of this direction with both the displacement vector between the two spacecraft, to get a distance, and the ion velocity (from ARTEMIS) to get a speed. The distance is divided by the speed to get a lag time. Cross‐Correlation analysis is a traditional method for measuring similarity between two variables. This paper shows that information theory analysis along with cross‐correlation analysis could be used successfully for space weather forecasting. Key Points: The solar wind data by MMS and THEMIS are analyzed by using information theory to understand the propagation of solar wind structuresMutual information, linear cross‐correlation, and minimum variance analyses sometimes give different lag‐timesInformation theory analysis along with the traditional method of cross‐correlation analysis could be used successfully for space weather forecasting [ABSTRACT FROM AUTHOR]

Published
2024
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10. Commissioning Status of the Linac for the Facility for Rare Isotope Beams

Author

Lidia, S., Ao, H., Barnes, B., Bennett, R., Bernal-Ruiz, E., Bollen, G., Brandon, J., Bull, B., Bultman, N., Casagrande, F., Chabot, D., Cogan, S., Compton, C., Davidson, K., Daykin, E., Georgiobani, D., Gibson, P., Grender, I., Kim, S.-H., Hartung, W., Hausmann, M., Hodges, L., Holland, K., Hussain, A., Ikegami, M., Konrad, M., Kiupel, G., Larter, T., Li, Z., Malloch, I., Machicoane, G., Maniar, H., Manwiller, P., Martins, B., Maruta, T., Morris, D., Morrison, P., Morton, C., Nesterenko, I., Omitto, D., Ostroumov, P., Pellemoine, F., Plastun, A., Popielarski, J., Popielarski, L., Pozdeyev, E., Ren, H., Rodriguez, P., Rodriguez, S., Russo, T., Saito, K., Shane, R., Stanley, S., Stolz, A., Timko, G., Wei, J., Xu, M., Xu, T., Yamazaki, Y., Yashimoto, T., Zhao, Q., and Zhao, S.

Published
2020
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15. A Search for SS Cyg Outburst Predictors

Author

Price, A., Henden, A. A., Foster, G., Petriew, V., Huziak, R., James, R., Koppelman, M. D., Blackwell, J., Boyd, D., Brady, S., Cook, Lewis M., Crawford, T., Dillon, B., Gary, B. L., Goff, B., Graham, K., Holland, K., Jones, J., Miles, R., Starkey, D., Robinson, S., Vanmunster, T., and Walker, G.

Subjects
Astrophysics
Abstract

We report null results on a two year photometric search for outburst predictors in SS Cyg. Observations in Johnson V and Cousins I were obtained almost daily for multiple hours per night for two observing seasons. The accumulated data are put through various statistical and visual analysis techniques but fails to detect any outburst predictors. However, analysis of 102 years of AAVSO archival visual data led to the detection of a correlation between a long term quasi-periodic feature at around 1,000-2,000 days in length and an increase in outburst rate., Comment: Accepted in PASP, December 2007

Published
2007

16. Triviality and the Higgs mass lower bound

Author

Holland, K.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

In the minimal Standard Model, it is commonly believed that the Higgs mass cannot be too small, otherwise Top quark dynamics makes the Higgs potential unstable. Although this Higgs mass lower bound is relevant for current phenomenology, we show that the Higgs vacuum instability in fact does not exist and only appears when treating incorrectly the cut-off in the renormalization of a trivial theory. We also demonstrate how to calculate correctly the regulator-dependent Higgs mass lower bound., Comment: Plenary talk presented at Lattice2004(plenary), Fermilab, June 21-26, 2004; 7 pages, 10 figures

Published
2004
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17. The Deconfinement Phase Transition of Sp(2) and Sp(3) Yang-Mills Theories in 2+1 and 3+1 Dimensions

Author

Holland, K., Pepe, M., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

Some time ago, Svetitsky and Yaffe have argued that -- if the deconfinement phase transition of a (d+1)-dimensional Yang-Mills theory with gauge group G is second order -- it should be in the universality class of a d-dimensional spin model symmetric under the center of G. For d=3 these arguments have been confirmed numerically only in the SU(2) case with center Z(2), simply because all SU(N) Yang-Mills theories with N>=3 seem to have non-universal first order phase transitions. The symplectic groups Sp(N) also have the center Z(2) and provide another extension of SU(2) = Sp(1) to general N. Using lattice simulations, we find that the deconfinement phase transition of Sp(2) Yang-Mills theory is first order in 3+1 dimensions, while in 2+1 dimensions stronger fluctuations induce a second order transition. In agreement with the Svetitsky-Yaffe conjecture, for (2+1)-d Sp(2) Yang-Mills theory we find the universal critical behavior of the 2-d Ising model. For Sp(3) Yang-Mills theory the transition is first order both in 2+1 and in 3+1 dimensions. This suggests that the size of the gauge group -- and not the center symmetry -- determines the order of the deconfinement phase transition., Comment: 31 pages, 16 figures

Published
2003
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18. The deconfinement phase transition in Yang-Mills theory with general Lie group G

Author

Holland, K., Pepe, M., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice
Abstract

We present numerical results for the deconfinement phase transition in Sp(2) and Sp(3) Yang-Mills theories in (2+1)-D and (3+1)-D. We then make a conjecture on the order of this phase transition in Yang-Mills theories with general Lie groups G = SU(N), SO(N), Sp(N) and with exceptional groups G = G(2), F(4), E(6), E(7), E(8)., Comment: Lattice2003(Topology and Confinement), 3 pages, 3 figures

Published
2003
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19. When is the deconfinement phase transition universal?

Author

Holland, K., Pepe, M., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

Pure Yang-Mills theory has a finite-temperature phase transition, separating the confined and deconfined bulk phases. Svetitsky and Yaffe conjectured that if this phase transition is of second order, it belongs to the universality class of transitions for particular scalar field theories in one lower dimension. We examine Yang-Mills theory with the symplectic gauge groups Sp(N). We find new evidence supporting the Svetitsky-Yaffe conjecture and make our own conjecture as to which gauge theories have a universal second order deconfinement phase transition., Comment: 5 pages, 4 figures; Contribution to Confinement 2003, Tokyo, Japan, July 21-24, 2003

Published
2003
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20. How light can the Higgs be?

Author

Holland, K. and Kuti, J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

It is widely believed that, for a given Top mass, the Higgs mass has a lower bound: if m_Higgs is too small, the Higgs vacuum is unstable due to Top dynamics. From vacuum instability, the state-of-the-art calculation of the lower bound is close to the current experimental limit. Using non-perturbative simulations and large N calculations, we show that the vacuum is in fact never unstable. Instead, we investigate the existence of a new lower bound, based on the intrinsic cut-off of this trivial theory., Comment: 3 pages, 4 figures, uses espcrc2.sty, Lattice2003(higgs)

Published
2003
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21. Exceptional Confinement in G(2) Gauge Theory

Author

Holland, K., Minkowski, P., Pepe, M., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

We study theories with the exceptional gauge group G(2). The 14 adjoint "gluons" of a G(2) gauge theory transform as {3}, {3bar} and {8} under the subgroup SU(3), and hence have the color quantum numbers of ordinary quarks, anti-quarks and gluons in QCD. Since G(2) has a trivial center, a "quark" in the {7} representation of G(2) can be screened by "gluons". As a result, in G(2) Yang-Mills theory the string between a pair of static "quarks" can break. In G(2) QCD there is a hybrid consisting of one "quark" and three "gluons". In supersymmetric G(2) Yang-Mills theory with a {14} Majorana "gluino" the chiral symmetry is Z(4)_\chi. Chiral symmetry breaking gives rise to distinct confined phases separated by confined-confined domain walls. A scalar Higgs field in the {7} representation breaks G(2) to SU(3) and allows us to interpolate between theories with exceptional and ordinary confinement. We also present strong coupling lattice calculations that reveal basic features of G(2) confinement. Just as in QCD, where dynamical quarks break the Z(3) symmetry explicitly, G(2) gauge theories confine even without a center. However, there is not necessarily a deconfinement phase transition at finite temperature., Comment: 34 pages, 2 figures

Published
2003
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22. Confinement without a center: the exceptional group G(2)

Author

Holland, K., Minkowski, P., Pepe, M., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Theory
Abstract

We discuss theories with the exceptional centerless gauge group G(2), paying attention to confinement and the pattern of chiral symmetry breaking. Exploiting the Higgs mechanism to break the symmetry down to SU(3), we also present how the familiar features of confinement and chiral symmetry breaking of SU(3) gauge theories reemerge. G(2) gauge theories show up as an unusual theoretical framework to study SU(3) gauge theories without the ``luxury'' of a center., Comment: 3 pages, 1 figure, Lattice2002 (Topology and Confinement)

Published
2002
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23. Testing the fixed-point QCD action and the construction of chiral currents

Author

Hasenfratz, P., Hauswirth, S., Holland, K., Jorg, T., and Niedermayer, F.

Subjects
High Energy Physics - Lattice
Abstract

We present the first set of quenched QCD measurements using the recently parametrized fixed-point Dirac operator D^FP. We also give a general and practical construction of covariant densities and conserved currents for chiral lattice actions. The measurements include (a) hadron spectroscopy, (b) corrections of small chiral deviations, (c) the renormalized quark condensate from finite-size scaling and, independently, spectroscopy, (d) the topological susceptibility, (e) small eigenvalue distributions and random matrix theory, and (f) local chirality of near-zero modes and instanton-dominance., Comment: 50 pages, 19 figures; misprints corrected, discussion on covariant densities extended, new appendix added

Published
2002
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24. Chiral measurements with the Fixed-Point Dirac operator and construction of chiral currents

Author

Hasenfratz, P., Hauswirth, S., Holland, K., Jorg, T., and Niedermayer, F.

Subjects
High Energy Physics - Lattice
Abstract

In this preliminary study, we examine the chiral properties of the parametrized Fixed-Point Dirac operator D^FP, see how to improve its chirality via the Overlap construction, measure the renormalized quark condensate Sigma and the topological susceptibility chi_t, and investigate local chirality of near zero modes of the Dirac operator. We also give a general construction of chiral currents and densities for chiral lattice actions., Comment: Lattice2001(chiral), based on a talk by T.J. and a poster by K.H., 6 pages

Published
2001
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25. First results from a parametrized Fixed-Point QCD action

Author

Hasenfratz, P., Hauswirth, S., Holland, K., Jorg, T., and Niedermayer, F.

Subjects
High Energy Physics - Lattice
Abstract

We have constructed a new fermion action which is an approximation to the (chirally symmetric) Fixed-Point action, containing the full Clifford algebra with couplings inside a hypercube and paths built from renormalization group inspired fat links. We present an exploratory study of the light hadron spectrum and the energy-momentum dispersion relation., Comment: Lattice2001(improvement), 3 pages, based on a talk by S.H; reference updated

Published
2001
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26. The Center symmetry and its spontaneous breakdown at high temperatures

Author

Holland, K. and Wiese, U. -J.

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Lattice, High Energy Physics - Theory
Abstract

We examine the role of the center Z(N) of the gauge group SU(N) in gauge theories. In this pedagogical article, we discuss, among other topics, the center symmetry and confinement and deconfinement in gauge theories and associated finite-temperature phase transitions. We also look at universal properties of domain walls separating distinct confined and deconfined bulk phases, including a description of how QCD color-flux strings can end on color-neutral domain walls, and unusual finite-volume dependence in which quarks in deconfined bulk phase seem to be "confined"., Comment: LaTex, 35 pages, 6 figures, uses sprocl.sty. To be published in the Festschrift in honor of B.L. Ioffe, "At the Frontier of Particle Physics/ Handbook of QCD", edited by M. Shifman

Published
2000
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27. Progress using generalized lattice Dirac operators to parametrize the Fixed-Point QCD action

Author

Hasenfratz, P., Hauswirth, S., Holland, K., Jorg, T., Niedermayer, F., and Wenger, U.

Subjects
High Energy Physics - Lattice
Abstract

We report on an ongoing project to parametrize the Fixed-Point Dirac operator for massless quarks, using a very general construction which has arbitrarily many fermion offsets and gauge paths, the complete Clifford algebra and satisfies all required symmetries. Optimizing a specific construction with hypercubic fermion offsets, we present some preliminary results., Comment: Lattice 2000 (Improvement), 9 pages, based on a talk by K.H. and a poster by T.J. References added

Published
2000
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28. Meron-cluster algorithms and chiral symmetry breaking in a (2+1)-d staggered fermion model

Author

Cox, J. and Holland, K.

Subjects
High Energy Physics - Lattice
Abstract

The recently developed Meron-Cluster algorithm completely solves the exponentially difficult sign problem for a number of models previously inaccessible to numerical simulation. We use this algorithm in a high-precision study of a model of N=1 flavor of staggered fermions in (2+1)-dimensions with a four-fermion interaction. This model cannot be explored using standard algorithms. We find that the Z(2) chiral symmetry of this model is spontaneously broken at low temperatures and that the finite-temperature chiral phase transition is in the universality class of the 2-d Ising model, as expected., Comment: 18 pages, LaTex

Published
2000
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29. The construction of generalized Dirac operators on the lattice

Author

Hasenfratz, P., Hauswirth, S., Holland, K., Jorg, T., Niedermayer, F., and Wenger, U.

Subjects
High Energy Physics - Lattice
Abstract

We discuss the steps to construct Dirac operators which have arbitrary fermion offsets, gauge paths, a general structure in Dirac space and satisfy the basic symmetries (gauge symmetry, hermiticity condition, charge conjugation, hypercubic rotations and reflections) on the lattice. We give an extensive set of examples and offer help to add further structures., Comment: 19 pages, latex, maple code attached

Published
2000
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30. Meron-Cluster Solution of Fermion and Other Sign Problems

Author

Cox, J., Gattringer, C., Holland, K., Scarlet, B., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, Condensed Matter - Strongly Correlated Electrons
Abstract

Numerical simulations of numerous quantum systems suffer from the notorious sign problem. Important examples include QCD and other field theories at non-zero chemical potential, at non-zero vacuum angle, or with an odd number of flavors, as well as the Hubbard model for high-temperature superconductivity and quantum antiferromagnets in an external magnetic field. In all these cases standard simulation algorithms require an exponentially large statistics in large space-time volumes and are thus impossible to use in practice. Meron-cluster algorithms realize a general strategy to solve severe sign problems but must be constructed for each individual case. They lead to a complete solution of the sign problem in several of the above cases., Comment: 15 pages,LATTICE99

Published
1999
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31. Meron-Cluster Simulation of a Chiral Phase Transition with Staggered Fermions

Author

Chandrasekharan, S., Cox, J., Holland, K., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, Condensed Matter
Abstract

We examine a (3+1)-dimensional model of staggered lattice fermions with a four-fermion interaction and Z(2) chiral symmetry using the Hamiltonian formulation. This model cannot be simulated with standard fermion algorithms because those suffer from a very severe sign problem. We use a new fermion simulation technique - the meron-cluster algorithm - which solves the sign problem and leads to high-precision numerical data. We investigate the finite temperature chiral phase transition and verify that it is in the universality class of the 3-d Ising model using finite-size scaling., Comment: 21 pages, 6 figures

Published
1999
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32. Confinement in the Deconfined Phase: A numerical study with a cluster algorithm

Author

Holland, K.

Subjects
High Energy Physics - Lattice
Abstract

We have previously found analytically a very unusual and unexpected form of confinement in SU(3) Yang-Mills theory. This confinement occurs in the deconfined phase of the theory. The free energy of a single static test quark diverges, even though it is contained in deconfined bulk phase and there is no QCD string present. This phenomenon occurs in cylindrical volumes with a certain choice of spatial boundary conditions. We examine numerically an effective model for the Yang-Mills theory and, using a cluster algorithm, we observe this unusual confinement. We also find a new way to determine the interface tension of domain walls separating distinct bulk phases., Comment: LaTex, 14 pages, 4 figures

Published
1999
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33. QCD strings ending on domain walls --- a complete wetting phenomenon in SUSY QCD

Author

Campos, A., Holland, K., and Wiese, U. -J.

Subjects
High Energy Physics - Lattice
Abstract

In the context of M-theory, Witten has argued that an intriguing phenomenon occurs, namely that QCD strings can end on domain walls. We present a simpler explanation of this effect using effective field theory to describe the behavior of the Polyakov loop and the gluino condensate in N = 1 supersymmetric QCD. We describe how domain walls separating distinct confined phases appear in this effective theory and how these interfaces are completely wet by a film of deconfined phase at the high-temperature phase transition. This gives the Polyakov loop a non-zero expectation value on the domain wall. Consequently, a static test quark which is close to the interface has a finite free energy and the string emanating from it can end on the wall., Comment: LATTICE98(hightemp), 3 pages, 2 figures

Published
1998
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34. Complete Wetting of Gluons and Gluinos

Author

Campos, A., Holland, K., and Wiese, U. -J.

Subjects
High Energy Physics - Theory, High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

Complete wetting is a universal phenomenon associated with interfaces separating coexisting phases. For example, in the pure gluon theory, at $T_c$ an interface separating two distinct high-temperature deconfined phases splits into two confined-deconfined interfaces with a complete wetting layer of confined phase between them. In supersymmetric Yang-Mills theory, distinct confined phases may coexist with a Coulomb phase at zero temperature. In that case, the Coulomb phase may completely wet a confined-confined interface. Finally, at the high-temperature phase transition of gluons and gluinos, confined-confined interfaces are completely wet by the deconfined phase, and similarly, deconfined-deconfined interfaces are completely wet by the confined phase. For these various cases, we determine the interface profiles and the corresponding complete wetting critical exponents. The exponents depend on the range of the interface interactions and agree with those of corresponding condensed matter systems., Comment: 15 pages, 5 figures

Published
1998
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35. Complete Wetting in Supersymmetric QCD or Why QCD Strings Can End on Domain Walls

Author

Campos, A., Holland, K., and Wiese, U. -J.

Subjects
High Energy Physics - Theory, High Energy Physics - Lattice, High Energy Physics - Phenomenology
Abstract

As argued by Witten on the basis of M-theory, QCD strings can end on domain walls. We present an explanation of this effect in the framework of effective field theories for the Polyakov loop and the gluino condensate in N=1 supersymmetric QCD. The domain walls separating confined phases with different values of the gluino condensate are completely wet by a layer of deconfined phase at the high-temperature phase transition. As a consequence, even at low temperatures, the Polyakov loop has a non-vanishing expectation value on the domain wall. Thus, close to the wall, the free energy of a static quark is finite and the string emanating from it can end on the wall., Comment: 8 pages, 2 figures

Published
1998
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36. Quark Confinement in the Deconfined Phase

Author

Holland, K. and Wiese, U. -J.

Subjects
High Energy Physics - Lattice
Abstract

In cylindrical volumes with C-periodic boundary conditions in the long direction, static quarks are confined even in the gluon plasma phase due to the presence of interfaces separating the three distinct high-temperature phases. An effective "string tension" is computed analytically using a dilute gas of interfaces. At T_c, the deconfined-deconfined interfaces are completely wet by the confined phase and the high-temperature "string tension" turns into the usual string tension below T_c. Finite size formulae are derived, which allow to extract interface and string tensions from the expectation value of a single Polyakov loop. A cluster algorithm is built for the 3-d three-state Potts model and an improved estimator for the Polyakov loop is constructed, based on the number of clusters wrapping around the C-periodic direction of the cluster., Comment: 3 pages, Latex, talk presented at Lattice '97, to appear in Nucl. Phys. B (Proc. Suppl.), uses espcrc2.sty

Published
1998
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37. Quark Confinement in C-periodic Cylinders at Temperatures above T_c

Author

Holland, K. and Wiese, U. -J.

Subjects
High Energy Physics - Lattice, High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

Due to the Gauss law, a single quark cannot exist in a periodic volume, while it can exist with C-periodic boundary conditions. In a C-periodic cylinder of cross section A = L_x L_y and length L_z >> L_x, L_y containing deconfined gluons, regions of different high temperature Z(3) phases are aligned along the z-direction, separated by deconfined- deconfined interfaces. In this geometry, the free energy of a single static quark diverges in proportion to L_z. Hence, paradoxically, the quark is confined, although the temperature T is larger than T_c. At T around T_c, the confined phase coexists with the three deconfined phases. The deconfined-deconfined interfaces can be completely or incompletely wet by the confined phase. The free energy of a quark behaves differently in these two cases. In contrast to claims in the literature, our results imply that deconfined-deconfined interfaces are not Euclidean artifacts, but have observable consequences in a system of hot gluons., Comment: 8 pages, Latex, no figures

Published
1997
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38. A Comprehensive Biogeochemical Assessment of Climate‐Threatened Glacial River Headwaters on the Eastern Slopes of the Canadian Rocky Mountains.

Author

Serbu, J. A., St. Louis, V. L., Emmerton, C. A., Tank, S. E., Criscitiello, A. S., Silins, U., Bhatia, M. P., Cavaco, M. A., Christenson, C., Cooke, C. A., Drapeau, H. F., Enns, S. J. A., Flett, J. E., Holland, K. M., Lavallee‐Whiffen, J., Ma, M., Muir, C. E., Poesch, M., and Shin, J.

Subjects
MELTWATER, WATER quality, LIFE zones, ALPINE glaciers, CHEMICAL yield, PRINCIPAL components analysis, GLACIERS, RAINFALL
Abstract

Climate change is driving the loss of alpine glaciers globally, yet investigations about the water quality of rivers stemming from them are few. Here we provide an overview assessment of a biogeochemical data set containing 200+ parameters that we collected between 2019 and 2021 from the headwaters of three such rivers (Sunwapta‐Athabasca, North Saskatchewan, and Bow) which originate from the glacierized eastern slopes of the Canadian Rocky Mountains. We used regional hydrometric data sets to accurately model discharge at our 14 sampling sites. We created a Local Meteoric Water Line (LMWL) using riverine water isotope signatures and compared it to collected regional rain, snow, and glacial ice signatures. Principal component analyses of river physicochemical measures revealed distance from glacier explained more data variability than other spatiotemporal factors (i.e., season, year, or river). Discharge, chemical concentrations, and watershed areas were then used to model site‐specific open water season yields for 25 parameters. Chemical yields followed what would generally be expected along river continuums from glacierized to montane altitudinal life zones, with landscape characteristics driving chemical sources and sinks. For instance, particulate chemical yields were generally highest near source glaciers with proglacial lakes acting as settling ponds, whereas most dissolved yields varied by parameter and site. As these headwaters continue to evolve with glacier mass loss, the data set and analyses presented here can be used as a contemporary baseline to mark future change against. Further, following this initial assessment of our data set, we encourage others to mine it for additional biogeochemical studies. Plain Language Summary: Alpine glaciers are vulnerable to climate change, with their numbers and sizes expected to decline dramatically within the current century. It is known that a decrease in glacier mass will have direct consequences on glacial meltwater quantity, but how this may impact the quality of receiving freshwaters is less understood. Our goal was to record a water quality data set of 200+ physical and chemical parameters for the headwaters of three major rivers draining glaciers on the eastern slopes of the Canadian Rocky Mountains. We first used statistics to model how fast the rivers were flowing at our 14 sampling locations over our 2‐year sampling period. We then looked at how and why water isotopes collected from river, rain, snow, and glacier ice samples differed. We discovered that distance downstream from the glacier explained more statistical variation in our physical and chemical measures than season, year, or river. Finally, at each of our sampling sites, we calculated chemical yields, or the amount of chemical constituent being exported downriver per unit watershed area, and found landscape features like lakes, outwash plains, and forests influence them. We ultimately hope that others use our comprehensive data set to investigate this changing region further. Key Points: We assessed a 200+ parameter data set collected from glacial river headwaters on the eastern slopes of the Canadian Rocky MountainsOur findings can act as a contemporary reference for future investigation of glacial headwaters in rapidly evolving alpine regionsThe possibilities for data exploration of our 260,000+ measure data set are numerous and we encourage others to mine it for new studies [ABSTRACT FROM AUTHOR]

Published
2024
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41. Overview of Fragment Separator Superconducting Magnets in the Facility for Rare Isotope Beams

Author

Choi, Y., primary, Al-Mahmoud, Y., additional, Asciutto, J., additional, Barnes, B., additional, Bliton, R., additional, Compton, C., additional, Chang, W., additional, Du, X., additional, Greene, D. B., additional, Holland, K., additional, Magsig, C., additional, Miller, S., additional, Nguyen, H., additional, Nguyen, L., additional, Popielarski, L., additional, Portillo, M., additional, Reaume, M., additional, Saito, K., additional, Tousignant, B., additional, Walker, R., additional, Wenstrom, J., additional, and Xu, T., additional

Published
2023
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46. Sinks for nitrogen inputs in terrestrial ecosystems: a meta-analysis of 15 N tracer field studies

Author

Templer, P. H., Mack, M. C., Chapin, F. S., Christenson, L. M., Compton, J. E., Crook, H. D., Currie, W. S., Curtis, C. J., Dail, D. B., D'Antonio, C. M., Emmett, B. A., Epstein, H. E., Goodale, C. L., Gundersen, P., GUNDERSON, P., Hobbie, S. E., Holland, K., Hooper, D. U., Hungate, B. A., Lamontagne, S., Nadelhoffer, K. J., Osenberg, C. W., Perakis, S. S., Schleppi, P., Schimel, J., Schmidt, I. K., Sommerkorn, M., Spoelstra, J., Tietema, A., Wessel, W. W., and Zak, D. R.

Published
2012

47. Accelerator commissioning and rare isotope identification at the Facility for Rare Isotope Beams

Author

Wei, J., primary, Ao, H., additional, Arend, B., additional, Beher, S., additional, Bollen, G., additional, Bultman, N., additional, Casagrande, F., additional, Chang, W., additional, Choi, Y., additional, Cogan, S., additional, Compton, C., additional, Cortesi, M., additional, Curtin, J., additional, Davidson, K., additional, Du, X., additional, Elliott, K., additional, Ewert, B., additional, Facco, A., additional, Fila, A., additional, Fukushima, K., additional, Ganni, V., additional, Ganshyn, A., additional, Gao, J., additional, Glasmacher, T., additional, Guo, J., additional, Hao, Y., additional, Hartung, W., additional, Hasan, N., additional, Hausmann, M., additional, Holland, K., additional, Hseuh, H. C., additional, Ikegami, M., additional, Jager, D., additional, Jones, S., additional, Joseph, N., additional, Kanemura, T., additional, Kim, S.-H., additional, Knudsen, P., additional, Kortum, B., additional, Kwan, E., additional, Larter, T., additional, Laxdal, R. E., additional, Larmann, M., additional, Laturkar, K., additional, LeTourneau, J., additional, Li, Z.-Y., additional, Lidia, S., additional, Machicoane, G., additional, Magsig, C., additional, Manwiller, P., additional, Marti, F., additional, Maruta, T., additional, McCartney, A., additional, Metzgar, E., additional, Miller, S., additional, Momozaki, Y., additional, Morris, D., additional, Mugerian, M., additional, Nesterenko, I., additional, Nguyen, C., additional, O’Brien, W., additional, Openlander, K., additional, Ostroumov, P. N., additional, Patil, M., additional, Plastun, A. S., additional, Popielarski, J., additional, Popielarski, L., additional, Portillo, M., additional, Priller, J., additional, Rao, X., additional, Reaume, M., additional, Ren, H., additional, Saito, K., additional, Smith, M., additional, Steiner, M., additional, Stolz, A., additional, Tarasov, O. B., additional, Tousignant, B., additional, Walker, R., additional, Wang, X., additional, Wenstrom, J., additional, West, G., additional, Witgen, K., additional, Wright, M., additional, Xu, T., additional, Xu, Y., additional, Yamazaki, Y., additional, Zhang, T., additional, Zhao, Q., additional, Zhao, S., additional, Dixon, K., additional, Wiseman, M., additional, Kelly, M., additional, Hosoyama, K., additional, and Prestemon, S., additional

Published
2022
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