Advanced Search
Home > Journals > Real Anal. Exchange > Volume 36 > Issue 1 > Article
Open Access
2010/2011 A Feynman-Kac Solution to a Random Impulsive Equation of Schrödinger Type
E. M. Bonotto, M. Federson, P. Muldowney
Real Anal. Exchange 36(1): 107-148 (2010/2011).

Abstract

If a force is applied to a particle undergoing Brownian motion, the resulting motion has a state function which satisfies a diffusion or Schrödinger-type equation. We consider a process in which Brownian motion is replaced by a process which has Brownian transitions at all times other than random times at which the transitions have an additional "impulsive" displacement. Using a Feynman-Kac formulation based on generalized Riemann integration, we examine the resulting equation of motion.

Citation

Download Citation

E. M. Bonotto. M. Federson. P. Muldowney. "A Feynman-Kac Solution to a Random Impulsive Equation of Schrödinger Type." Real Anal. Exchange 36 (1) 107 - 148, 2010/2011.

Information

Published: 2010/2011
First available in Project Euclid: 14 March 2011

zbMATH: 1246.28008
MathSciNet: MR3016407

Subjects:
Primary: 28C20 , 35R12
Secondary: ‎46G12 , 46T12

Keywords: Brownian motion , Feynman-Kac formula , Henstock integral , impulse , partial differential equations

Rights: Copyright © 2010 Michigan State University Press

JOURNAL ARTICLE
 42 PAGES
DOWNLOAD PDF + SAVE TO MY LIBRARY
GET CITATION
< Previous Article
|
Next Article >
Vol.36 • No. 1 • 2010/2011
Michigan State University Press
Subscribe to Project Euclid
Receive erratum alerts for this article
Back to Top