John D. Stack scite author profile

We calculate the heavy quark potential from the magnetic current due to monopoles in four dimensional SU(2) lattice gauge theory. The magnetic current is located in configurations generated in a conventional Wilson action simulation on a 16 4 lattice. The configurations are projected with high accuracy into the maximum abelian gauge. The magnetic current is then extracted and the monopole contribution to the potential is calculated. The resulting string tension is in excellent agreement with the SU(2) string tension obtained by conventional means from the configurations. Comparison is made with the U(1) case, with emphasis on the differing periodicity properties of SU(2) and U(1) lattice gauge theories. The properties of the maximum abelian gauge are discussed.

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Addition of brain and carotid imaging to the ABCD2 score to identify patients at early risk of stroke after transient ischaemic attack: a multicentre observational study

Merwick

Albers

Amarenco

et al. 2010

The Lancet Neurology

266

257

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On the phase diagram of the SU(2) adjoint Higgs model in 2+1 dimensions

et al. 1997

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The phase diagram is investigated for SU(2) lattice gauge theory in d = 3, coupled to adjoint scalars. For small values of the quartic scalar coupling, λ, the transition separating Higgs and confinement phases is found to be first-order, in agreement with earlier work by Nadkarni. The surface of second-order transitions conjectured by Nadkarni, however, is shown instead to correspond to crossover behaviour. This conclusion is based on a finite size analysis of the scalar mass and susceptibility. The nature of the phase transition at the termination of first-order behaviour is investigated and we find evidence for a critical point at which the scalar mass vanishes. The photon mass and confining string tension are measured and are found to be negligibly small in the Higgs phase. This is correlated with the very small density of magnetic monopoles in the Higgs phase. The string tension and photon mass rise rapidly as the crossover is traversed towards the symmetric phase.

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Breast disease: tissue characterization with Gd-DTPA enhancement profiles.

Stack¹,

Redmond²,

Codd³

et al. 1990

Radiology

231

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Magnetic resonance (MR) imaging of the breast is currently of limited value because of lack of specificity. Enhanced MR imaging with gadolinium diethylenetriaminepentaacetic acid (DTPA) has been shown to be helpful in the further characterization of breast tissue. This prospective study attempted to differentiate benign and malignant breast disease with a dynamic enhancement technique. Bolus injection of Gd-DTPA and a short MR imaging time were used to examine 18 patients with a palpable breast mass. Construction of enhancement profiles helped effectively differentiate benign and malignant lesion (P less than .001). Dynamic MR imaging shows promise for the further characterization of breast tissue and, particularly, identification of breast carcinoma.

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Imaging of Primary Non-Hodgkin's Lymphoma of the Liver

Maher¹,

McDermott

Fenlon

et al. 2001

Clinical Radiology

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Radiographic features that enable assessment of first metatarsal rotation: the role of pronation in hallux valgus

et al. 1993

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This study describes a method of detecting first metatarsal pronation on the basis of the movement of the inferior tuberosity of the base of 20 cadaveric first metatarsals at 0 degrees, 10 degrees, 20 degrees and 30 degrees pronation. On pronation, the inferior tuberosity of the base of the first metatarsal moved lateral to the mid-line axis. At 10 degrees, the tuberosity pointed to the junction of the inner third and outer two-thirds of a line between the midpoint and lateral tubercle of the base. At 20 degrees, it pointed to the junction of the inner two-thirds and outer third of that line. At 30 degrees, it pointed to the outer margin of the lateral third. Using these features, the amount of first metatarsal pronation in 100 consecutive weight-bearing views of feet was recorded and plotted against the corresponding intermetatarsal angles in those feet. Four of 43 patients with an intermetatarsal angle of less than 9 degrees had pronation greater than 10 degrees, 48 of 57 patients with an intermetatarsal angle greater than 9 degrees had pronation greater than 10 degrees (P < 0.001). As intermetatarsal angles increase, the amount of first metatarsal pronation increases (r = 0.69). Pronation and varus deviation of the first metatarsal are linked; both alter the tendon balance maintaining proximal phalanx alignment and lead to the development of hallux valgus.

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Monopoles, quark confinement, and screening in four-dimensional U(1) lattice gauge theory

Stack

Wensley

1992

Nuclear Physics B

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Magnetic Resonance Imaging in the Assessment of Rheumatoid Arthritis—a Comparison With Plain Film Radiographs

et al. 1991

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Conventional radiography lacks sensitivity in early rheumatoid disease. MRI with its advantages of soft tissue discrimination and multiplanar imaging facility might detect earlier disease. This study compares the MR images and conventional radiographs of 11 rheumatoid patients' wrists and carpi. In all cases, erosions were more extensive and numerous on the MR images compared to plain radiographs. MR is useful in detecting early aggressive disease and in monitoring the response to treatments.

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John D. Stack

String tension from monopoles in SU(2) lattice gauge theory

Addition of brain and carotid imaging to the ABCD2 score to identify patients at early risk of stroke after transient ischaemic attack: a multicentre observational study

On the phase diagram of the SU(2) adjoint Higgs model in 2+1 dimensions

Breast disease: tissue characterization with Gd-DTPA enhancement profiles.

Imaging of Primary Non-Hodgkin's Lymphoma of the Liver

Radiographic features that enable assessment of first metatarsal rotation: the role of pronation in hallux valgus

Monopoles, quark confinement, and screening in four-dimensional U(1) lattice gauge theory

Magnetic Resonance Imaging in the Assessment of Rheumatoid Arthritis—a Comparison With Plain Film Radiographs

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