A brief history of the quantum soliton with new results on the quantization of the Toda lattice

Bill Sutherland

Type: Article

Publication Date: 1978-03-01

Citations: 110

DOI: https://doi.org/10.1216/rmj-1978-8-1-413

Abstract

I. Brief History.When I first learned of this conference, and saw the wide range of interests represented by the participants, I was certain that finally a common definition of that most intriguing concept-the soliton-would emerge.And I was anxious that this definition be broad enough to encompass solitons in both their classical and quantum versions.For recent work had convinced me that the general technique known as Bethe's ansatz for solving diverse one-dimensional quantum problems in fact was nothing more nor less than the quantum soliton.However, from conversations with conference participants, I discovered that many were not aware of this accumulated work on exactly soluble quantum systems.I even gained the impression that some feel quantum mechanics to be much harder than classical mechanics-an unnecessary complication.My own feeling, on the other hand, is that in many cases quantum mechanics clarifies matters.It forces one to immediately face problems that would eventually have to be faced in the corresponding classical case, problems such as the counting of states, to determine how important solitons really are.Anyway, the history of the quantum soliton is all to the greater glory of the soliton concept.And quite a respectable history it is.I would date the beginning at 1931 with a paper of H. Bethe [1] on magnetism; that is a total span of 45 years.Quantum mechanics itself has not been around all that much longer!It now seems my hopes for a consensus on a definition of the soliton were premature, and things are still fermenting.Nevertheless, here is my contribution to the conference in the form of a brief history for general interest, and a more original work on the quantization of the Toda lattice.Perhaps next time there will be some consolidation, and we can then decide just how particular and how general a concept is the soliton.1. We begin this historical account with the classic paper of H. Bethe [1], which introduced first the many-body wave function crucial

Locations

Rocky Mountain Journal of Mathematics - View - PDF

Similar Works

Action	Title	Year	Authors
+	A systematic study of the Toda lattice in the context of the Hamilton-Jacobi theory	2001	Aaron T. Bruce R. G. McLenaghan Roman G. Smirnov
+	The novel solutions of the toda lattice	2004	Meina Sun C. X. Du
+ PDF Chat	A Fourier transform for the quantum Toda lattice	2018	Gus Lonergan
+	The Toda Lattice as a Forced Integrable System	1986	P. J. Hansen D. J. Kaup
+	An operator theoretic approach to the Toda lattice equation	1998	Cornelia Schiebold
+	The quantum mechanical toda lattice	1980
+	Solitons on a Modified Toda Lattice	1991	Hiroyuki Shiraki
+	Lattice Quantum Chromodynamics	2016	Francesco Knechtli Michael Günther Mike Peardon
+ PDF Chat	A new formulation of the generalized Toda lattice equations and their fixed point analysis via the momentum map	1990	Anthony M. Bloch Roger W. Brockett Tudor S. Raţiu
+	The Bethe Wavefunction	2014	M. Gaudin Jean-Sébastien Caux
+	A systematic study of the Toda lattice	1989	Ashok Das Susumu Ôkubo
+	A systematic study of the Toda lattice	1989
+	Periodic toda-lattice solitons	2003	Alwyn Scott
+	The Finite Non-periodic Toda Lattice: A Geometric and Topological Viewpoint	2008	Yuji Kodama Barbara A. Shipman
+	A modified hyperbolic function method and its application to the Toda lattice	2005	Zhi Hong-Yan Xueqin Zhao Zhongyuan Yang Hongqing Zhang
+	Retrospect of the Late Dr. Morikazu Toda and the Lattice Dynamics Group( His Attractive Physics and Personality)	2011	Hirotsugu Matsuda
+	A tri-Hamiltonian formulation of the full Kostant-Toda lattice	1995	Pantelis A. Damianou Paschalis Paschalis C. Sophocleous
+	Dynamics of the Classical Toda Lattice	2024
+	The solution to a generalized Toda lattice and representation theory	1979	Bertram Kostant
+	The solutions of Toda lattice and Volterra lattice	2005	Fuding Xie Zhuosheng Lü Dingkang Wang

Works That Cite This (65)

Action	Title	Year	Authors
+ PDF Chat	Data-driven soliton mappings for integrable fractional nonlinear wave equations via deep learning with Fourier neural operator	2022	Ming Zhong Zhenya Yan
+ PDF Chat	Long-range integrable spin chains and plane-wave matrix theory	2006	Niklas Beisert Thomas Klose
+	The quantum Toda chain	2008	E. K. Sklyanin
+ PDF Chat	The Bethe ansatz equations for reflecting magnons	2009	W. Galléas
+ PDF Chat	The Bethe ansatz approach for factorizable centrally extended S-matrices	2007	M J Martins C.S. Melo
+ PDF Chat	A class of parameter-dependent commuting matrices	2005	B. Sriram Shastry
+ PDF Chat	Ground state correlations of the quantum Toda lattice	1997	Akihiko Matsuyama
+	Goat cheese for breakfast in Istanbul or Why are certain nonlinear PDEs both widely applicable and integrable? Reminiscences of Francesco Calogero	2005	R. Bullough
+ PDF Chat	Long-range Bethe ansätze for gauge theory and strings	2005	Niklas Beisert Matthias Staudacher
+ PDF Chat	The analytic Bethe ansatz for a chain with centrally extended symmetry	2007	Niklas Beisert

Works Cited by This (3)

Action	Title	Year	Authors
+	Partition function of the Eight-Vertex lattice model	1972	R. J. Baxter
+	Mathematical Physics in One Dimension	1966
+	Partition Function of the Eight-Vertex Lattice Model	2000	R. J. Baxter