Nahm equations explained

In differential geometry and gauge theory, the Nahm equations are a system of ordinary differential equations introduced by Werner Nahm in the context of the Nahm transform - an alternative to Ward's twistor construction of monopoles. The Nahm equations are formally analogous to the algebraic equations in the ADHM construction of instantons, where finite order matrices are replaced by differential operators.

Deep study of the Nahm equations was carried out by Nigel Hitchin and Simon Donaldson. Conceptually, the equations arise in the process of infinite-dimensional hyperkähler reduction. They can also be viewed as a dimensional reduction of the anti-self-dual Yang-Mills equations . Among their many applications we can mention: Hitchin's construction of monopoles, where this approach is critical for establishing nonsingularity of monopole solutions; Donaldson's description of the moduli space of monopoles; and the existence of hyperkähler structure on coadjoint orbits of complex semisimple Lie groups, proved by,, and .

Equations

Let

T_1(z),T_2(z),T_3(z)

be three matrix-valued meromorphic functions of a complex variable

. The Nahm equations are a system of matrix differential equations

\begin{align}	dT₁
	dz

&=[T_2,T

3]\\[3pt]	dT₂
	dz

&=[T_3,T

1]\\[3pt]	dT₃
	dz

&=[T_1,T_{2],
\end{align}}

together with certain analyticity properties, reality conditions, and boundary conditions. The three equations can be written concisely using the Levi-Civita symbol, in the form

	dT_i	=
	dz

	1
	2

\sum_j,k\epsilon_ijk[T_j,T_k]=\sum_j,k\epsilon_ijkT_jT_k.

More generally, instead of considering

matrices, one can consider Nahm's equations with values in a Lie algebra

Additional conditions

The variable

is restricted to the open interval

(0,2)

, and the following conditions are imposed:

	*
T
	i

=-T_i;

T_i(2-z)=T

	T

	i(z)

;

T_iN

can be continued to a meromorphic function of

in a neighborhood of the closed interval

[0,2]

, analytic outside of

and

, and with simple poles at

z=0

and

z=2

; and

At the poles, the residues of

T_1,T_2,T₃

form an irreducible representation of the group SU(2).

Nahm - Hitchin description of monopoles

There is a natural equivalence between

the monopoles of charge

for the group

SU(2)

, modulo gauge transformations, and

the solutions of Nahm equations satisfying the additional conditions above, modulo the simultaneous conjugation of

T_1,T_2,T₃

by the group

O(k,R)

Lax representation

The Nahm equations can be written in the Lax form as follows. Set

\begin{align} &A_0=T_1+iT_2, A_1=-2iT_3, A_2=T_1-iT₂\\[3pt] &A(\zeta)=A_0+\zeta

	2
A
	1+\zeta

A_2, B(\zeta)=

	1
	2

	dA	=
	d\zeta

	1
	2

A_1+\zetaA_2,\end{align}

then the system of Nahm equations is equivalent to the Lax equation

	dA
	dz

=[A,B].

As an immediate corollary, we obtain that the spectrum of the matrix

does not depend on

. Therefore, the characteristic equation

\det(λI+A(\zeta,z))=0,

TP¹

is invariant under the flow in

References

Nahm . W. . All self-dual multimonopoles for arbitrary gauge groups . CERN, Preprint TH. 3172 . 1981 .
Nigel Hitchin . Nigel . Hitchin . On the construction of monopoles . Communications in Mathematical Physics . 89 . 2 . 1983 . 145–190 . 10.1007/BF01211826 . 1983CMaPh..89..145H . 120823242 .
Simon Donaldson . Simon . Donaldson . Nahm's equations and the classification of monopoles . Communications in Mathematical Physics . 96 . 3 . 1984 . 387–407 . 10.1007/BF01214583 . 1984CMaPh..96..387D . 119959346 .
Book: Michael Atiyah

. Michael Atiyah . Michael . Atiyah . Hitchin . N. J. . The geometry and dynamics of magnetic monopoles . M. B. Porter Lectures . Princeton University Press . Princeton, NJ . 1988 . 0-691-08480-7 .

Kronheimer . Peter B. . Peter B. Kronheimer . A hyper-Kählerian structure on coadjoint orbits of a semisimple complex group . Journal of the London Mathematical Society . 42 . 1990 . 2 . 193–208 . 10.1112/jlms/s2-42.2.193 .
Kovalev . A. G. . Nahm's equations and complex adjoint orbits . . 47 . 1996 . 185 . 41–58 . 10.1093/qmath/47.1.41 .
Biquard . Olivier . Sur les équations de Nahm et la structure de Poisson des algèbres de Lie semi-simples complexes . Nahm equations and Poisson structure of complex semisimple Lie algebras . . 304 . 1996 . 2 . 253–276 . 10.1007/BF01446293 . 73680531 .

External links

Islands project - a wiki about the Nahm equations and related topics