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Charles Loewner

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Charles Loewner
Born(1893-05-29)29 May 1893
Died8 January 1968(1968-01-08) (aged 74)
NationalityAmerican
Alma materUniversity of Prague
Known forOperator monotone function
Systolic geometry
Loewner equation
Loewner order
Loewner's torus inequality
Loewner–Heinz theorem
Scientific career
FieldsMathematics
InstitutionsStanford University
Syracuse University
University of Prague
Doctoral advisorGeorg Alexander Pick
Doctoral studentsLipman Bers
William J. Firey
Adriano Garsia
Roger Horn
Pao Ming Pu

Charles Loewner (29 May 1893 – 8 January 1968) was an American mathematician. His name was Karel Löwner in Czech and Karl Löwner in German.

Early life and career

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Karl Loewner was born into a Jewish family in Lany, about 30 km from Prague, where his father Sigmund Löwner was a store owner.[1][2]

Loewner received his Ph.D. from the University of Prague in 1917 under supervision of Georg Pick. One of his central mathematical contributions is the proof of the Bieberbach conjecture in the first highly nontrivial case of the third coefficient. The technique he introduced, the Loewner differential equation, has had far-reaching implications in geometric function theory; it was used in the final solution of the Bieberbach conjecture by Louis de Branges in 1985. Loewner worked at the University of Berlin, University of Prague, University of Louisville, Brown University, Syracuse University and eventually at Stanford University. His students include Lipman Bers, Roger Horn, Adriano Garsia, and P. M. Pu.

Loewner's torus inequality

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In 1949 Loewner proved his torus inequality, to the effect that every metric on the 2-torus satisfies the optimal inequality

where sys is its systole. The boundary case of equality is attained if and only if the metric is flat and homothetic to the so-called equilateral torus, i.e. torus whose group of deck transformations is precisely the hexagonal lattice spanned by the cube roots of unity in .

Loewner matrix theorem

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The Loewner matrix (in linear algebra) is a square matrix or, more specifically, a linear operator (of real functions) associated with 2 input parameters consisting of (1) a real continuously differentiable function on a subinterval of the real numbers and (2) an -dimensional vector with elements chosen from the subinterval; the 2 input parameters are assigned an output parameter consisting of an matrix.[3]

Let be a real-valued function that is continuously differentiable on the open interval .

For any define the divided difference of at as

.

Given , the Loewner matrix associated with for is defined as the matrix whose -entry is .

In his fundamental 1934 paper, Loewner proved that for each positive integer , is -monotone on if and only if is positive semidefinite for any choice of .[3][4][5] Most significantly, using this equivalence, he proved that is -monotone on for all if and only if is real analytic with an analytic continuation to the upper half plane that has a positive imaginary part on the upper plane. See Operator monotone function.

Continuous groups

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"During [Loewner's] 1955 visit to Berkeley he gave a course on continuous groups, and his lectures were reproduced in the form of duplicated notes. Loewner planned to write a detailed book on continuous groups based on these lecture notes, but the project was still in the formative stage at the time of his death." Harley Flanders and Murray H. Protter "decided to revise and correct the original lecture notes and make them available in permanent form."[6] Charles Loewner: Theory of Continuous Groups (1971) was published by The MIT Press,[7] and re-issued in 2008.[8]

In Loewner's terminology, if and a group action is performed on , then is called a quantity (page 10). The distinction is made between an abstract group and a realization of in terms of linear transformations that yield a group representation. These linear transformations are Jacobians denoted (page 41). The term invariant density is used for the Haar measure, which Loewner attributes to Adolph Hurwitz (page 46). Loewner proves that compact groups have equal left and right invariant densities (page 48).

A reviewer said, "The reader is helped by illuminating examples and comments on relations with analysis and geometry."[9]

See also

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References

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  • Berger, Marcel: À l'ombre de Loewner. (French) Ann. Sci. École Norm. Sup. (4) 5 (1972), 241–260.
  • Loewner, Charles; Nirenberg, Louis: Partial differential equations invariant under conformal or projective transformations. Contributions to analysis (a collection of papers dedicated to Lipman Bers), pp. 245–272. Academic Press, New York, 1974.
  1. ^ Loewner Biography
  2. ^ 2.2 Charles Loewner
  3. ^ a b Hiai, Fumio; Sano, Takashi (2012). "Loewner matrices of matrix convex and monotone functions". Journal of the Mathematical Society of Japan. 54 (2): 343–364. arXiv:1007.2478. doi:10.2969/jmsj/06420343. S2CID 117532480.
  4. ^ Löwner, Karl (1934). "Über monotone Matrixfunktionen". Mathematische Zeitschrift. 38 (1): 177–216. doi:10.1007/BF01170633. S2CID 121439134.
  5. ^ Loewner, Charles (1950). "Some classes of functions defined by difference or differential inequalities". Bull. Amer. Math. Soc. 56 (4): 308–319. doi:10.1090/S0002-9904-1950-09405-1.
  6. ^ Preface, page ix
  7. ^ Loewner, Charles (1971). Theory of Continuous Groups. ISBN 0-262-06-041-8.
  8. ^ Loewner, Charles; Flanders, Harley; Protter, Murray H. (2008). Dover reprint. ISBN 9780486462929.
  9. ^ Deane Montgomery MR0315038
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