Nonrelativistic Dyon-Dyon Scattering

  title={Nonrelativistic Dyon-Dyon Scattering},
  author={Julian Seymour Schwinger and Kimball A. Milton and Wu-yang Tsai and Lester L. DeRaad and Donald C. Clark},
  journal={Annals of Physics},

Scattering amplitudes for monopoles: pairwise little group and pairwise helicity

On-shell methods are particularly suited for exploring the scattering of electrically and magnetically charged objects, for which there is no local and Lorentz invariant Lagrangian description. In

Magnetic monopoles and dyons revisited: a useful contribution to the study of classical mechanics

Graduate-level physics curricula in many countries around the world, as well as senior-level undergraduate ones in some major institutions, include classical mechanics courses, mostly based on

Looking for monopolium excited states with electromagnetic detectors

We study the detection of particles with magnetic moment and no charge by using coils and solenoids. The detector uses the Faraday-Lenz law to create a current whose energy is measured. Our

Electron scattering on magnetic monopoles

Introduction: It has been recognized within the framework of geometric quantization1),2), that it is very convenient to interpret the wave-function of a particle as a section in a complex

Strings and gauge invariance

Within the context of the nonrelativistic theory of dyons, we study a number of interrelated issues concerning the quantum formulation of magnetic charge. We begin by solving the two‐body Schrodinger

Effective Field Theory Treatment of Monopole Production by Drell–Yan and Photon Fusion for Various Spins

A resolution over the existence of magnetic charges has eluded the high energy physics community for centuries, and their search has gained momentum as recent models predict these may be observable

On-shell electric-magnetic duality and the dual graviton

Using on-shell amplitude methods, we explore 4-dimensional Electric-Magnetic duality and its double copy. We show explicitly that the on-shell scattering amplitudes know about `dual' photons (and

Nonrelativistic Charged Particle-Magnetic Monopole Scattering in the Global Monopole Background

We analyze the nonrelativistic quantum scattering problem of a charged particle by an Abelian magnetic monopole in the background of a global monopole. In addition to the magnetic and geometric

Classical monopoles: Newton, NUT space, gravomagnetic lensing, and atomic spectra

This article reviews the dynamics and observational signatures of particles interacting with monopoles, beginning with a scholium in Newton'sPrincipia. The orbits of particles in the field of a

Capture and chaotic scattering of a charged particle by a magnetic monopole under a uniform electric field

Motivated by the realization of magnetic monopole of Berry curvature by the energy crossing point, we theoretically study the effect of magnetic monopole under a uniform electric field in the



Sources and Magnetic Charge

A beginning is made on a phenomenological reconstruction of the theory of magnetic charge. The concept is introduced by reference to a new kind of photon source. It is shown that photon exchange


It has been previously determined that an electron has no bound states in the Geld of the magnetic monopole. Seeking to establish the character of the monopole's interaction with the more complex

Scattering theory of waves and particles

Much progress has been made in scattering theory since the publication of the first edition of this book fifteen years ago, and it is time to update it. Needless to say, it was impossible to

Evidence for detection of a moving magnetic monopole

A very heavy particle passed through a balloon-borne stack of Cherenkov film, emulsion, and Lexan sheets. In 33 Lexan sheets it produced tracks expected of either a nucleus with

Classical Interaction of an Electric Charge with a Magnetic Monopole

The motion of a charged particle in the field of a magnetic monopole is calculated classically. The differential scattering cross section is obtained, and it is seen that in the limit of small

Magnetic Charge and Quantum Field Theory

A quantum field theory of magnetic and electric charge is constructed. It is verified to be relativistically invariant in consequence of the charge quantization condition

Die verallgemeinerten Kugelfunktionen und die Wellenfunktionen eines Elektrons im Felde eines Magnetpoles

ZusammenfassungIm Anschluß an die von Dirac neuerdings angegebene Wellengleichung eines Elektrons im Felde eines isolierten Magnetpols werden die Eigenschaften der durch die Gleichung (3) definierten