Robert J. Sibner scite author profile

Robert J. Sibner

3Publications

159Citation Statements Received

44Citation Statements Given

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City University of New York, Brooklyn College, University of Bonn

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Solutions to Yang—Mills equations that are not self-dual

Sibner

Uhlenbeck

1989

Proc. Natl. Acad. Sci. U.S.A.

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The Yang-Mills functional for connections on principle SU(2) bundles over S4 is studied. Critical points of the functional satisfy a system of second-order partial differential equations, the Yang-Mills equations. If, in particular, the critical point is a minimum, it satisfies a first-order system, the self-dual or anti-self-dual equations. Here, we exhibit an infinite number of finite-action nonminimal unstable critical points. They are obtained by constructing a topologically nontrivial loop of connections to which mi-max theory is applied. The construction exploits the fundamental relationship between certain invariant instantons on S4 and magnetic monopoles on H3. This result settles a question in gauge field theory that has been open for many years.The existence of non-self-dual solutions to the Yang-Mills equations on 54 has been an open problem for more than a decade. Evidence for nonexistence rests primarily on the analogy with the problem of harmonic maps from S2 to S2, where it is not difficult to show that all solutions to the harmonic map equation are conformal, anticonformal, or trivial. The general philosophy has been that the SU(2) Yang-Mills equations on S4 = R4 U oo are similar, with the quaternions replacing the complex numbers. Partial success has been achieved by Bourguignon and Lawson (1), Bourguignon et al. (2), and Taubes (3), who have shown that non-self-dual solutions cannot take on local minima.In this paper, we show that there exist an infinite number of nontrivial non-self-dual solutions to Yang-Mills equations on 54 by exploiting the properties of solutions with U(1) symmetries. We produce solutions in the trivial bundle which are left invariant by a U(1) action for every integer m 2 2. The m = 1 symmetry describes the basic BPST instanton, and one might hope that the most elementary non-self-dual solution would describe an instanton-anti-instanton balanced pairing with a U(1) symmetry corresponding to m = 1. This we have not been able to find. At best we have a procedure for generating a solution that should correspond to an m instanton and m anti-instanton pair for m > 2.Our ideas are based on the fundamental relationship between m-equivariant gauge fields on S4 and monopoles on hyperbolic 3-space H-3, as described by Atiyah (4) [see also Braam (5)]. Taubes (6) has shown the existence of nonself-dual monopoles on Euclidean R3, and our arguments parallel his but on Hl. By translating our instanton arguments into monopole language, our methods produce hyperbolic monopoles for all real m > 1. These monopoles correspond to nonsingular Yang-Mills connections on 54 exactly when m is an integer. The details of this will appear later.The analytic techniques in this paper are entirely due to Taubes, who has developed an extensive variational theory for both instantons (3) and Euclidean monopoles (6-9). His analytic arguments carry over exactly to our situation, and we depend on his methods and papers rather than reproducing them here. Section 1. The Basic ResultWe follow the descri...

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Abelian gauge theory on Riemann surfaces and new topological invariants

Sibner¹,

Sibner

Yang³

2000

Proc. R. Soc. Lond. A

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An Abelian gauge eld theory framed on a complex line bundle L over a compact Riemann surface M is developed which allows the coexistence, simultaneously in the same model, of magnetic vortices and antivortices represented by the N zeros and P poles of a section of L. The quantized minimum energy E is given in terms of the rst Chern class c 1 (L) and by a certain intersection number obtained from the multivortices. We show that E = 2º (N + P ). To realize such topological invariants as minimum energies, an existence and uniqueness theorem is established under the necessary and su¯cient condition that jc 1 (L)j = jN ¡ P j < (total volume of M )=2º .

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Classification of singular Sobolev connections by their holonomy

Sibner¹,

Sibner²

1992

Commun.Math. Phys.

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Robert J. Sibner

Solutions to Yang—Mills equations that are not self-dual

Abelian gauge theory on Riemann surfaces and new topological invariants

Classification of singular Sobolev connections by their holonomy

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