Supersymmetry nonrenormalization theorems: Difference between revisions

Revision as of 04:49, 25 October 2013

In differential equations, the Laplace invariant of any of certain differential operators is a certain function of the coefficients and their derivatives. Consider a bivariate hyperbolic differential operator of the second order

\partial_{x} \partial_{y} + a \partial_{x} + b \partial_{y} + c,

whose coefficients

a = a (x, y), b = c (x, y), c = c (x, y),

are smooth functions of two variables. Its Laplace invariants have the form

\hat{a} = c - a b - a_{x} and \hat{b} = c - a b - b_{y} .

Their importance is due to the classical theorem:

Theorem: Two operators of the form are equivalent under gauge transformations if and only if their Laplace invariants coincide pairwise.

Here the operators

A and \tilde{A}

are called equivalent if there is a gauge transformation that takes one to the other:

\tilde{A} g = e^{- φ} A (e^{φ} g) \equiv A_{φ} g .

Laplace invariants can be regarded as factorization "remainders" for the initial operator A:

\partial_{x} \partial_{y} + a \partial_{x} + b \partial_{y} + c = {\begin{array}{c} (\partial_{x} + b) (\partial_{y} + a) - a b - a_{x} + c, \\ (\partial_{y} + a) (\partial_{x} + b) - a b - b_{y} + c . \end{array}

If at least one of Laplace invariants is not equal to zero, i.e.

c - a b - a_{x} \neq 0 and/or c - a b - b_{y} \neq 0,

then this representation is a first step of the Laplace–Darboux transformations used for solving non-factorizable bivariate linear partial differential equations (LPDEs).

If both Laplace invariants are equal to zero, i.e.

c - a b - a_{x} = 0 and c - a b - b_{y} = 0,

then the differential operator A is factorizable and corresponding linear partial differential equation of second order is solvable.

Laplace invariants have been introduced for a bivariate linear partial differential operator (LPDO) of order 2 and of hyperbolic type. They are a particular case of generalized invariants which can be constructed for a bivariate LPDO of arbitrary order and arbitrary type; see Invariant factorization of LPDOs.

References

G. Darboux, "Leçons sur la théorie général des surfaces", Gauthier-Villars (1912) (Edition: Second)
G. Tzitzeica G., "Sur un theoreme de M. Darboux". Comptes Rendu de l'Academie des Aciences 150 (1910), pp. 955–956; 971–974
L. Bianchi, "Lezioni di geometria differenziale", Zanichelli, Bologna, (1924)
A. B. Shabat, "On the theory of Laplace–Darboux transformations". J. Theor. Math. Phys. Vol. 103, N.1,pp. 170–175 (1995) [1]
A.N. Leznov, M.P. Saveliev. "Group-theoretical methods for integration on non-linear dynamical systems" (Russian), Moscow, Nauka (1985). English translation: Progress in Physics, 15. Birkhauser Verlag, Basel (1992)

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+In [[differential equation]]s, the '''Laplace invariant''' of any of certain [[differential operator]]s is a certain function of the coefficients and their [[derivative]]s.  Consider a bivariate hyperbolic differential operator of the second order
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+:<math>\partial_x \, \partial_y + a\,\partial_x + b\,\partial_y + c, \,</math>
+whose coefficients
+:<math> a=a(x,y), \ \ b=c(x,y), \ \ c=c(x,y), </math>
+are smooth functions of two variables.  Its '''Laplace invariants'''  have the form
+:<math>\hat{a}= c- ab -a_x \quad \text{and} \quad \hat{b}=c- ab  -b_y.</math>
+Their importance is due to the classical theorem:
+'''Theorem''':  ''Two operators of the form are equivalent under [[gauge transformation]]s if and only if their Laplace invariants coincide pairwise.''
+Here the operators
+:<math>A \quad \text{and} \quad \tilde A</math>
+are called ''equivalent'' if there is a [[gauge transformation]] that takes one to the other:
+:<math> \tilde Ag= e^{-\varphi}A(e^{\varphi}g)\equiv A_\varphi g. </math>
+Laplace invariants can be regarded as factorization "remainders" for the initial operator ''A'':
+:<math>\partial_x\, \partial_y + a\,\partial_x + b\,\partial_y + c = \left\{\begin{array}{c}
+(\partial_x + b)(\partial_y + a) - ab - a_x + c ,\\
+(\partial_y + a)(\partial_x + b) - ab - b_y + c .
+\end{array}\right.</math>
+If at least one of Laplace invariants is not equal to zero, i.e.
+:<math> c- ab -a_x \neq 0 \quad \text{and/or} \quad
+c- ab  -b_y  \neq 0,</math>
+then this representation is a first step of the [[Laplace–Darboux transformation]]s used for solving
+''non-factorizable'' bivariate linear partial differential equations (LPDEs).
+If both Laplace invariants are equal to zero, i.e.
+:<math> c- ab -a_x=0 \quad \text{and} \quad
+c- ab  -b_y =0,</math>
+then the differential operator ''A'' is factorizable and corresponding linear partial differential equation of second order is solvable.
+Laplace invariants have been introduced for a bivariate linear partial differential operator (LPDO) of order 2 and of hyperbolic type. They are a particular case of ''generalized invariants'' which can be constructed for a bivariate LPDO of arbitrary order and arbitrary type; see [[Invariant factorization of LPDOs]].
+==See also==
+* [[Partial derivative]]
+* [[Invariant (mathematics)]]
+* [[Invariant theory]]
+==References==
+* G. Darboux, "Leçons sur la théorie général des surfaces", Gauthier-Villars  (1912)  (Edition: Second)
+* G. Tzitzeica G., "Sur un theoreme de M. Darboux". Comptes Rendu de l'Academie des Aciences 150 (1910), pp. 955–956; 971–974
+* L. Bianchi, "Lezioni di geometria differenziale", Zanichelli, Bologna, (1924)
+* A. B. Shabat, "On the theory of Laplace–Darboux transformations". J. Theor. Math. Phys. Vol. 103, N.1,pp. 170–175 (1995) [http://www.springerlink.com/content/n426ttx757676531/]
+* A.N. Leznov, M.P. Saveliev. "Group-theoretical methods for integration on non-linear dynamical systems" (Russian), Moscow, Nauka (1985). English translation: Progress in Physics, 15. Birkhauser Verlag, Basel (1992)
+[[Category:Multivariable calculus]]
+[[Category:Differential operators]]

Supersymmetry nonrenormalization theorems: Difference between revisions

Revision as of 04:49, 25 October 2013

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