Per Enflo

Per Enflo

Born	1944 Stockholm, Sweden
Residence	Kent, Ohio, United States
Fields	Functional analysis Operator theory Analytic number theory
Institutions	University of California, Berkeley Stanford University École Polytechnique, Paris The Royal Institute of Technology, Stockholm Kent State University
Alma mater	Stockholm University
Doctoral advisor	Hans Rådstrom
Doctoral students	Nilson Bernardes Miguel Lacruz Jan-Ove Larsson Marie Lövblom Bruce Reznick Anthony Weston
Known for	Approximation problem Schauder basis Hilbert's fifth problem (infinite-dimensional) uniformly convex renorms of superreflexive Banach spaces embedding metric spaces (unbounded distortion of cube) "Concentration" of polynomials at low degree Invariant subspace problem
Influences	Joram Lindenstrauss Laurent Schwartz
Influenced	Bernard Beauzamy
Notable awards	Mazur's "live goose" for solving "Scottish Book" Problem 153

Per H. Enflo (Norwegian pronunciation: [ˌpæːɹ ˈeːnfluː]; born 1944) is a mathematician who has solved fundamental problems in functional analysis. Three of these problems had been open for more than forty years^[1]:

The basis problem and the approximation problem^[2] and later
the invariant subspace problem for Banach spaces.^[3]

In solving these problems, Enflo developed new techniques which were then used by other researchers in functional analysis and operator theory for years. Some of Enflo's research has been important also in other mathematical fields, such as number theory, and in computer science, especially computer algebra and approximation algorithms.

Enflo works at Kent State University, where he holds the title of University Professor. Enflo has earlier held positions at the University of California, Berkeley, Stanford University, École Polytechnique, (Paris) and The Royal Institute of Technology, Stockholm.

Enflo is also a concert pianist.

Enflo's contributions to functional analysis and operator theory

In mathematics, Functional analysis is concerned with the study of vector spaces and operators acting upon them. It has its historical roots in the study of functional spaces, in particular transformations of functions, such as the Fourier transform, as well as in the study of differential and integral equations. In functional analysis, an important class of vector spaces consists of the complete normed vector spaces over the real or complex numbers, which are called Banach spaces. An important example of a Banach space is a Hilbert space, where the norm arises from an inner product. Hilbert spaces are of fundamental importance in many areas, including the mathematical formulation of quantum mechanics, stochastic processes, and time-series analysis. Besides studying spaces of functions, functional analysis also studies the continuous linear operators on spaces of functions.

Hilbert's fifth problem and embeddings

Applications in computer science

Geometry of Banach spaces

The basis problem and Mazur's goose

See also: Schauder basis and Approximation problem

With one paper, which was published in 1973, Per Enflo solved three problems that had stumped functional analysts for decades: The basis problem of Stefan Banach, the "Goose problem" of Stanislaw Mazur, and the approximation problem of Alexander Grothendieck. Grothendieck had shown that his approximation problem was the central problem in the theory of Banach spaces and continuous linear operators.

Basis problem of Banach

Main article: Schauder basis

See also: Stefan Banach, Banach space, and Separable space

The basis problem was posed by Stefan Banach in his book, Theory of Linear Operators. Banach asked whether every Banach space have a Schauder basis.

A Schauder basis or countable basis is similar to the usual (Hamel) basis of a vector space; the difference is that for Hamel bases we use linear combinations that are finite sums, while for Schauder bases they may be infinite sums. This makes Schauder bases more suitable for the analysis of infinite-dimensional topological vector spaces including Banach spaces.

Schauder bases were described by Juliusz Schauder in 1927.^[10]^[11] Let V denote a Banach space over the field F. A Schauder basis is a sequence (b_n) of elements of V such that for every element v ∈ V there exists a unique sequence (α_n) of elements in F so that

$v = \sum_{n \in \N} \alpha_n b_n \,$

where the convergence is understood with respect to the norm topology. Schauder bases can also be defined analogously in a general topological vector space.

In 1937, Polish mathematician Stanislaw Mazur promised a "live goose" as the prize for solving problem 153 in the Scottish Book. In 1972, Mazur presented the goose to Per Enflo.

Problem 153 in the Scottish Book: Mazur's goose

In 1972 Stanislaw Mazur awarded Enflo the promised live goose for solving a problem in the Scottish book.

See also: Scottish Café, Scottish Book, and Stanislaw Mazur

Banach and other Polish mathematicians would work on mathematical problems at the Scottish Café. When a problem was especially interesting and when its solution seemed difficult, the problem would be written down in the book of problems, which soon became known as the Scottish Book. For problems that seemed especially important or difficult or both, the problem's proposer would often pledge to award a prize for its solution.

On 6 November 1936, Stanislaw Mazur posed a problem on representing continuous functions. Formally writing down problem 153 in the Scottish Book, Mazur promised as the reward a "live goose", an especially rich price during the Great Depression and on the eve of World War II.

Fairly soon afterwords, it was realized that Mazur's problem was closely related to Banach's problem on the existence of Schauder bases in separable Banach spaces. Most of the other problems in the Scottish Book were solved regularly. However, there was little progress on Mazur's problem and a few other problems, which became famous open problems to mathematicians around the world.^[12]

Grothendieck's formulation of the approximation problem

Main articles: Approximation property and Approximation problem

Grothendieck's work on the theory of Banach spaces and continuous linear operators introduced the approximation property. A Banach space is said to have the approximation property, if every compact operator is a limit of finite-rank operators. The converse is always true.^[13]

In a long monograph, Grothendieck proved that if every Banach space had the approximation property, then every Banach space would have a Schauder basis. Grothendieck thus focused the attention of functional analysts on deciding whether every Banach space have the approximation property.^[13]

Enflo's solution

In 1972, Per Enflo constructed a separable Banach space that lacks the approximation property and a Schauder basis.^[14] In 1972, Mazur awarded a live goose to Enflo in a ceremony at the Stefan Banach Center in Warsaw; the "goose reward" ceremony was broadcast throughout Poland.^[15]

Invariant subspace problem and polynomials

Main article: Invariant subspace problem

Multiplicative inequalities for homogeneous polynomials

Bombieri norm

Main article: Bombieri norm

The Bombieri norm is defined in terms of the following scalar product: For all $\alpha,\beta \in \mathbb{N}^N$ we have

$\langle X^\alpha | X^\beta \rangle = 0$ if $\alpha \neq \beta$

For every $\alpha \in \mathbb{N}^N$ we define $||X^\alpha||^2 = \frac{|\alpha|!}{\alpha!},$

where we use use the following notation: if $\alpha = (\alpha_1,\dots,\alpha_N) \in \mathbb{N}^N$ , we write $|\alpha| = \Sigma_{i=1}^N \alpha_i$ and $\alpha! = \Pi_{i=1}^N (\alpha_i!)$ and $X^\alpha = \Pi_{i=1}^N X_i^{\alpha_i}.$

The most remarkable property of this norm is the Bombieri inequality:

Let $P, Q$ be two homogeneous polynomials respectively of degree $d^\circ(P)$ and $d^\circ(Q)$ with $N$ variables, then, the following inequality holds:

$\frac{d^\circ(P)!d^\circ(Q)!}{(d^\circ(P)+d^\circ(Q))!}||P||^2 \, ||Q||^2 \leq ||P\cdot Q||^2 \leq ||P||^2 \, ||Q||^2.$

In the above statement, the Bombieri inequality is the left-hand side inequality; the right-hand side inequality means that the Bombieri norm is a norm of the algebra of polynomials under multiplication.

The Bombieri inequality implies that the product of two polynomials cannot be arbitrarily small, and this lower-bound is fundamental in applications like polynomial factorization (or in Enflo's construction of an operator without an invariant subspace).

Applications

Mathematical biology: Population dynamics

In applied mathematics, Per Enflo has published several papers in mathematical biology, specifically in population dynamics.

Human evolution

Enflo has also published in population genetics and paleoanthropology.^[25]

Today, all humans belong to one, undivided by species barrier, population of Homo sapiens sapiens. However, according to the "Out of Africa" model this is not the first species of hominids: the first species of genus Homo, Homo habilis, evolved in East Africa at least 2 Ma, and members of this species populated different parts of Africa in a relatively short time. Homo erectus evolved more than 1.8 Ma, and by 1.5 Ma had spread throughout the Old World.

Anthropologists have been divided as to whether current human population evolved as one interconnected population (as postulated by the Multiregional Evolution hypothesis), or evolved only in East Africa, speciated, and then migrating out of Africa and replaced human populations in Eurasia (called the "Out of Africa" Model or the "Complete Replacement" Model).

Neanderthals and modern humans coexisted in Europe for several thousand years, but the duration of this period is uncertain.^[26] Modern humans may have first migrated to Europe 40–43,000 years ago.^[27] Neanderthals may have lived as recently as 24,000 years ago in refugia on the south coast of the Iberian peninsula such as Gorham's Cave.^[28]^[29] Inter-stratification of Neanderthal and modern human remains has been suggested,^[30] but is disputed.^[31]

With Hawks and Wolpoff, Enflo published an explanation of fossil evidence on the DNA of Neanderthal and modern humans. This article tries to resolve a debate in the evolution of modern humans between theories suggesting either multiregional and single African origins. In particular, the extinction of Neanderthals could have happened due to waves of modern humans entered Europe – in technical terms, due to "the continuous influx of modern human DNA into the Neandertal gene pool."^[32]^[33]^[34]

Enflo has also written about the population dynamics of zebra mussels in Lake Erie.^[35]

A concert pianist, Per Enflo debuted at the Stockholm Concert Hall in 1963.^[36]

Piano

Per Enflo is also a concert pianist.

A child prodigy in both music and mathematics, Enflo won the Swedish competition for young pianists at age 11 in 1956, and he won the same competition in 1961.^[37] At age 12, Enflo appeared as a soloist with the Royal Opera Orchestra of Sweden. He debuted in the Stockholm Concert Hall in 1963. Enflo's teachers included Bruno Seidlhofer, Géza Anda, and Gottfried Boon (who himself was a student of Arthur Schnabel).^[36]

In 1999 Enflo competed in the first annual Van Cliburn Foundation’s International Piano Competition for Outstanding Amateurs.^[38]

Enflo performs regularly around Kent and in a Mozart series in Columbus, Ohio (with the Triune Festival Orchestra). His solo piano recitals have appeared on the Classics Network of the radio station WOSU, which is sponsored by Ohio State University.^[36]

References

Notes

^ Page 586 in Halmos 1990.
^ Per Enflo: A counterexample to the approximation problem in Banach spaces. Acta Mathematica vol. 130, no. 1, Juli 1973
^ *Enflo, Per (1976). "On the invariant subspace problem in Banach spaces". Séminaire Maurey--Schwartz (1975--1976) Espaces L^p, applications radonifiantes et géométrie des espaces de Banach, Exp. Nos. 14-15. Centre Math., École Polytech., Palaiseau. pp. 7. MR 0473871.
- Enflo, Per (1987). "On the invariant subspace problem for Banach spaces". Acta Mathematica 158 (3): 213–313. doi:10.1007/BF02392260. ISSN 0001-5962. MR 892591.
^ Rådström had himself published several articles on Hilbert's fifth problem from the point of view of semigroup theory. Rådström was also the (initial) advisor of Martin Ribe, who wrote a thesis on metric linear spaces that need not be locally convex; Ribe also used a few of Enflo's ideas on metric geometry, especially "roundness", in obtaining independent results on uniform and Lipschitz embeddings (Benyamini and Lindenstrauss). This reference also describes results of Enflo and his students on such embeddings.
^ Theorem 14.4.1 in Matoušek.
^ Matoušek 370.
^ Matoušek 372.
^ Beauzamy 1985, page 298.
^ Pisier.
^ Schauder J. (1927). "Zur Theorie stetiger Abbildungen in Funktionalraumen". Mathematische Zeitschrift 26: 47–65. doi:10.1007/BF01475440.
^ Schauder J. (1928). "Eine Eigenschaft des Haarschen Orthogonalsystems". Mathematische Zeitschrift 28: 317–320. doi:10.1007/BF01181164.
^ Mauldin
^ ^a ^b Joram Lindenstrauss and L. Tzafriri.
^ Enflo's "sensation" is discussed on page 287 in Pietsch, Albrecht (2007). History of Banach spaces and linear operators. Boston, MA: Birkhäuser Boston, Inc.. pp. xxiv+855 pp.. ISBN 978-0-8176-4367-6, 0-8176-4367-2. MR 2300779. http://books.google.com/books?id=MMorKHumdZAC&pg=PA203&dq=Pietsch,+Enflo&cd=1#v=onepage&q=enflo&f=false. Introductions to Enflo's solution were written by Halmos, by Johnson, by Kwapien, by Lindenstrauss and Tzafriri, by Nedevski and Trojanski, and by Singer.
^ Kałuża, Saxe, Eggleton, Mauldin.
^ ^a ^b Beauzamy 1988; Yadav.
^ Yadav, page 292.
^ For example, Radjavi and Rosenthal (1982).
^ Heydar Radjavi and Peter Rosenthal (March 1982). "The invariant subspace problem". The Mathematical Intelligencer 4 (1): 33–37. doi:10.1007/BF03022994.
^ Page 401 in Foiaş, Ciprian; Jung, Il Bong; Ko, Eungil; Pearcy, Carl (2005). "On quasinilpotent operators. III". Journal of Operator Theory 54 (2): 401–414. . Enflo's method of ("forward") "minimal vectors" is also noted in the review of this research article by Gilles Cassier in Mathematical Reviews: MR 2186363 Enflo's method of minimal vector is described in greater detail in a survey article on the invariant subspace problem by Enflo and Victor Lomonosov, which appears in the Handbook of the Geometry of Banach Spaces (2001).
^ Schmidt, page 257.
^ Montgomery. Schmidt. Beauzamy and Enflo. Beauzamy, Bombieri, Enflo, and Montgomery
^ Bombieri and Gubler
^ Knuth. Beauzamy, Enflo, and Wang.
^ The model for the evolution of human population genetics (developed by Enflo and his coauthors) was reported on the cover page of a major Swedish newspaper.Jensfelt, Annika (14 January 2001). Svenska Dagbladet: 1.
^ Mellars, P. (2006). "A new radiocarbon revolution and the dispersal of modern humans in Eurasia". Nature 439 (7079): 931–935. Bibcode 2006Natur.439..931M. doi:10.1038/nature04521. PMID 16495989.
^ Banks, William E.; Francesco d'Errico, A. Townsend Peterson, Masa Kageyama, Adriana Sima, Maria-Fernanda Sánchez-Goñi (24 December 2008). Harpending, Henry. ed. "Neanderthal Extinction by Competitive Exclusion". PLoS ONE (Public Library of Science) 3 (12): e3972. Bibcode 2008PLoSO...3.3972B. doi:10.1371/journal.pone.0003972. ISSN 1932-6203. PMC 2600607. PMID 19107186. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=2600607.
^ Rincon, Paul (13 September 2006). "Neanderthals' 'last rock refuge'". BBC News. http://news.bbc.co.uk/1/hi/5343266.stm?lsm. Retrieved 2009-10-11.
^ Finlayson, C., F. G. Pacheco, J. Rodriguez-Vidal, D. A. Fa, J. M. G. Lopez, A. S. Perez, G. Finlayson, E. Allue, J. B. Preysler, I. Caceres, J. S. Carrion, Y. F. Jalvo, C. P. Gleed-Owen, F. J. J. Espejo, P. Lopez, J. A. L. Saez, J. A. R. Cantal, A. S. Marco, F. G. Guzman, K. Brown, N. Fuentes, C. A. Valarino, A. Villalpando, C. B. Stringer, F. M. Ruiz, and T. Sakamoto. 2006. Late survival of Neanderthals at the southernmost extreme of Europe. Nature advanced online publication.
^ Gravina, B.; Mellars, P.; Ramsey, C. B. (2005). "Radiocarbon dating of interstratified Neanderthal and early modern human occupations at the Chatelperronian type-site". Nature 438 (7064): 51–56. Bibcode 2005Natur.438...51G. doi:10.1038/nature04006. PMID 16136079.
^ Zilhão, João; Francesco d’Errico, Jean-Guillaume Bordes, Arnaud Lenoble, Jean-Pierre Texier, and Jean-Philippe Rigaud (2006). "Analysis of Aurignacian interstratification at the Châtelperronian-type site and implications for the behavioral modernity of Neandertals". PNAS 103 (33): 12643–12648. Bibcode 2006PNAS..10312643Z. doi:10.1073/pnas.0605128103. PMC 1567932. PMID 16894152. http://www.pubmedcentral.nih.gov/articlerender.fcgi?tool=pmcentrez&artid=1567932.
^ Page 665:
- Pääbo, Svante et alia. "Genetic analyses from ancient DNA." Annu. Rev. Genet. 38, 645–679 (2004).
^ Jensfelt, Annika (14 January 2001). Svenska Dagbladet: 1.
^ "'Per Enflo's theory is extremely well thought-out and of the highest significance' [...] said American anthropologist Milford Wolpoff, professor at the University of Michigan." (Page 14 in Jensfelt, Annika (14 January 2001). "Ny brandfackla tänder debatten om manniskans ursprung (Swedish)". Svenska Dagbladet: 14–15. )
^ Saxe
^ ^a ^b ^c * Chagrin Valley Chamber Music Concert Series 2009-2010.
^ Saxe.
^
- Michael Kimmelman (August 8, 1999). "Prodigy's Return". The New York Times Magazine: 30. http://www.nytimes.com/1999/08/08/magazine/prodigy-s-return.html?pagewanted=2.

"Recipients of 2005 Distinguished Scholar Award at Kent State University Announced", eInside, 2005-4-11. Retrieved on February 4, 2007.

Bibliography

Enflo, Per. (1970) Investigations on Hilbert’s fifth problem for non locally compact groups (Stockholm University). Enflo's thesis contains reprints of exactly five papers:
- Enflo, Per; 1969a: Topological groups in which multiplication on one side is differentiable or linear. Math. Scand., 24, pp. 195–197.
- Per Enflo (1969). "On the nonexistence of uniform homeomorphisms between L_p spaces". Ark. Mat. 8 (2): 103–5. Bibcode 1970ArM.....8..103E. doi:10.1007/BF02589549.
- Enflo, Per; 1969b: On a problem of Smirnov. Ark. Math., 8, pp. 107–109.
- Enflo, Per (1970a). "Uniform structures and square roots in topological groups I". Israel J. Math. 8 (3): 230–252. doi:10.1007/BF02771560.
- Enflo, Per (1970b). "Uniform structures and square roots in topological groups II". Israel J. Math. 8 (3): 253–272. doi:10.1007/BF02771561.
  - Enflo, Per. 1976. Uniform homeomorphisms between Banach spaces. Séminaire Maurey-Schwartz (1975—1976), Espaces, $L p$ , applications radonifiantes et géométrie des espaces de Banach, Exp. No. 18, 7 pp. Centre Math., École Polytech., Palaiseau. MR0477709 (57 #17222) [Highlights of papers on Hilbert's fifth problem and on independent results of Martin Ribe, another student of Hans Rådström]

Enflo, Per (1972). "Banach spaces which can be given an equivalent uniformly convex norm". Israel Journal of Mathematics 13 (3–4): 281–288. doi:10.1007/BF02762802. | mr = 336297

Enflo, Per (1973). "A counterexample to the approximation problem in Banach spaces". Acta Mathematica 130: 309–317. doi:10.1007/BF02392270. MR 402468.

Enflo, Per (1976). "On the invariant subspace problem in Banach spaces". Séminaire Maurey--Schwartz (1975--1976) Espaces L^p, applications radonifiantes et géométrie des espaces de Banach, Exp. Nos. 14–15. Centre Math., École Polytech., Palaiseau. pp. 1–7. MR 0473871. http://archive.numdam.org/ARCHIVE/SAF/SAF_1975-1976___/SAF_1975-1976____A11_0/SAF_1975-1976____A11_0.pdf.
Enflo, Per (1987). "On the invariant subspace problem for Banach spaces". Acta Mathematica 158 (3): 213–313. doi:10.1007/BF02392260. ISSN 0001-5962. MR 892591.

Beauzamy, Bernard; Bombieri, Enrico; Enflo, Per; Montgomery, Hugh L. (1990). "Products of polynomials in many variables". Journal of Number Theory 36 (2): 219–245. doi:10.1016/0022-314X(90)90075-3. MR 1072467.

Beauzamy, Bernard; Enflo, Per; Wang, Paul (October 1994). "Quantitative Estimates for Polynomials in One or Several Variables: From Analysis and Number Theory to Symbolic and Massively Parallel Computation". Mathematics Magazine 67 (4): 243–257. JSTOR 2690843. (accessible to readers with undergraduate mathematics)

P. Enflo, John D. Hawks, M. Wolpoff. "A simple reason why Neanderthal ancestry can be consistent with current DNA information". American Journal Physical Anthropology, 2001

Enflo, Per; Lomonosov, Victor (2001). "Some aspects of the invariant subspace problem". Handbook of the geometry of Banach spaces. I. Amsterdam: North-Holland. pp. 533–559.

Bartle, R. G. (1977). "MR0402468 (53 #6288) (Review of Per Enflo's "A counterexample to the approximation problem in Banach spaces" Acta Mathematica 130 (1973), 309--317)". Mathematical Reviews. | mr = 402468
Beauzamy, Bernard (1985 [1982]). Introduction to Banach Spaces and their Geometry (Second revised ed.). North-Holland. ISBN 0444864164. MR 889253.
Beauzamy, Bernard (1988). Introduction to Operator Theory and Invariant Subspaces. North Holland. ISBN 044470521X. MR 967989.
Enrico Bombieri and Walter Gubler (2006). Heights in Diophantine Geometry. Cambridge U. P.. ISBN 0521846153.
Roger B. Eggleton (1984). "MR0666400 (84m:00015) (Review of Mauldin's The Scottish Book: Mathematics from the Scottish Café". Mathematical Reviews. | mr = 666400
Grothendieck, A.: Produits tensoriels topologiques et espaces nucleaires. Memo. Amer. Math. Soc. 16 (1955).
Halmos, Paul R. (1978). "Schauder bases". American Mathematical Monthly 85 (4): 256–257. doi:10.2307/2321165. JSTOR 2321165. | mr = 488901
Paul R. Halmos, "Has progress in mathematics slowed down?" Amer. Math. Monthly 97 (1990), no. 7, 561—588. MR 1066321
William B. Johnson "Complementably universal separable Banach spaces" in Robert G. Bartle (ed.), 1980 Studies in functional analysis, Mathematical Association of America.
Kałuża, Roman (1996). Ann Kostant and Wojbor Woyczyński. ed. Through a Reporter's Eyes: The Life of Stefan Banach. Birkhäuser. ISBN 0817637729. MR 1392949. http://books.google.com/?id=i3ZrfMinChkC&printsec=frontcover&dq=Stefan+Banach#PPP1,M1.
Knuth, Donald E (1997). "4.6.2 Factorization of Polynomials". Seminumerical Algorithms. The Art of Computer Programming. 2 (Third ed.). Reading, Massachusetts: Addison-Wesley. pp. 439–461, 678–691. ISBN 0-201-89684-2.
Kwapień, S. "On Enflo's example of a Banach space without the approximation property". Séminaire Goulaouic-Schwartz 1972—1973: Équations aux dérivées partielles et analyse fonctionnelle, Exp. No. 8, 9 pp. Centre de Math., École Polytech., Paris, 1973. MR 407569
Lindenstrauss, Joram and Benyamini, Yoav. Geometric nonlinear functional analysis Colloquium publications, 48. American Mathematical Society.
Lindenstrauss, J.; Tzafriri, L.: Classical Banach Spaces I, Sequence spaces, 1977. Springer-Verlag.
Matoušek, Jiří (2002). Lectures on Discrete Geometry. Graduate Texts in Mathematics. Springer-Verlag. ISBN 9780387953731. http://kam.mff.cuni.cz/~matousek/dg-nmetr.ps.gz. .
R. Daniel Mauldin, ed (1981). The Scottish Book: Mathematics from the Scottish Café (Including selected papers presented at the Scottish Book Conference held at North Texas State University, Denton, Tex., May 1979). Boston, Mass.: Birkhäuser. pp. xiii+268 pp. (2 plates). ISBN 3-7643-3045-7. | mr = 666400
Nedevski, P.; Trojanski, S.. "P. Enflo solved in the negative Banach's problem on the existence of a basis for every separable Banach space". Fiz.-Mat. Spis. Bulgar. Akad. Nauk. 16 (49) (1973), 134–138. | mr = 458132
Pietsch, Albrecht (2007). History of Banach spaces and linear operators]. Boston, MA: Birkhäuser Boston, Inc.. pp. xxiv+855 pp.. ISBN 978-0-8176-4367-6, 0-8176-4367-2. http://books.google.com/books?id=MMorKHumdZAC&pg=PA203&dq=Pietsch,+Enflo&cd=1#v=onepage&q=enflo&f=false. | mr = 2300779
Pisier, Gilles (1975). "Martingales with values in uniformly convex spaces". Israel J. Math. 20 (3–4): 326–350. doi:10.1007/BF02760337. MR 394135.
Heydar Radjavi and Peter Rosenthal (March 1982). "The invariant subspace problem". The Mathematical Intelligencer 4 (1): 33–37. doi:10.1007/BF03022994.
Karen Saxe, Beginning Functional Analysis, Undergraduate Texts in Mathematics, 2002 Springer-Verlag, New York. (Pages 122–123 sketch a biography of Per Enflo.)
Schmidt, Wolfgang M. (1980 [1996 with minor corrections]) Diophantine approximation. Lecture Notes in Mathematics 785. Springer.
Singer, Ivan. Bases in Banach spaces. II. Editura Academiei Republicii Socialiste România, Bucharest; Springer-Verlag, Berlin-New York, 1981. viii+880 pp. ISBN 3-540-10394-5. MR 610799
Yadav, B. S. (2005). "The present state and heritages of the invariant subspace problem". Milan Journal of Mathematics 73: 289–316. doi:10.1007/s00032-005-0048-7. ISSN 1424-9286. MR 2175046.

External sources

Databases

Per Enflo at the Mathematics Genealogy Project.
Google Scholar. "Per Enflo". http://scholar.google.se/scholar?hl=en&q=author%3Ap-enflo&btnG=Search&as_sdt=2001&as_ylo=&as_vis=0. Retrieved 2010-05-15.
Mathematical Reviews. "Per Enflo". http://www.ams.org/mathscinet/search/author.html?mrauthid=63435. Retrieved 2010-05-14.

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Name	Enflo, Per
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Date of birth	1944
Place of birth	Stockholm, Sweden
Date of death
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Per Enflo — (Aussprache: [ˌpæːɹ ˈeːnfluː], * 30. Mai 1944 in Stockholm)[1] ist ein schwedischer Mathematiker und Universitätsprofessor an der Kent State University in Ohio, USA. Er ist für die Lösung einig … Deutsch Wikipedia
Per Enflö — Per Enflo (* 1944 in Stockholm) ist ein schwedischer Mathematiker und Universitätsprofessor an der Kent State University in Ohio, USA. Enflos mathematische Beiträge betreffen hauptsächlich Funktionalanalysis. Für die Lösung eines ca. 40 Jahre… … Deutsch Wikipedia
Enflo — Per Enflo (* 1944 in Stockholm) ist ein schwedischer Mathematiker und Universitätsprofessor an der Kent State University in Ohio, USA. Enflos mathematische Beiträge betreffen hauptsächlich Funktionalanalysis. Für die Lösung eines ca. 40 Jahre… … Deutsch Wikipedia
Beschränkte Approximationseigenschaft — Die Approximationseigenschaft ist eine Eigenschaft von Banachräumen, bei der es um die Approximation kompakter Operatoren durch lineare Operatoren endlichen Ranges geht. Es war vierzig Jahre lang ein offenes Problem, ob alle Banachräume diese… … Deutsch Wikipedia
Metrische Approximationseigenschaft — Die Approximationseigenschaft ist eine Eigenschaft von Banachräumen, bei der es um die Approximation kompakter Operatoren durch lineare Operatoren endlichen Ranges geht. Es war vierzig Jahre lang ein offenes Problem, ob alle Banachräume diese… … Deutsch Wikipedia
Histoire de l'analyse fonctionnelle — L analyse fonctionnelle est la branche des mathématiques et plus particulièrement de l analyse qui étudie les espaces de fonctions. Sa naissance peut être datée à peu près à 1907, et, un siècle plus tard, elle est omniprésente dans toutes les… … Wikipédia en Français
Prinzip der lokalen Reflexivität — Die endliche Präsentierbarkeit ist ein mathematisches Konzept, das in der Untersuchung der Banachräume Anwendung findet. Die Grundidee besteht darin, einen Banachraum über die in ihm enthaltenen endlich dimensionalen Teilräume zu untersuchen.… … Deutsch Wikipedia
Satz von Dvoretzky — Die endliche Präsentierbarkeit ist ein mathematisches Konzept, das in der Untersuchung der Banachräume Anwendung findet. Die Grundidee besteht darin, einen Banachraum über die in ihm enthaltenen endlich dimensionalen Teilräume zu untersuchen.… … Deutsch Wikipedia
Super-Reflexivität — Die endliche Präsentierbarkeit ist ein mathematisches Konzept, das in der Untersuchung der Banachräume Anwendung findet. Die Grundidee besteht darin, einen Banachraum über die in ihm enthaltenen endlich dimensionalen Teilräume zu untersuchen.… … Deutsch Wikipedia
Base de Schauder — La notion de base de Schauder est une généralisation de celle de base (algébrique). La différence vient du fait que dans une base algébrique on considère des combinaisons linéaires finies d éléments, alors que pour des bases de Schauder elles… … Wikipédia en Français

Academic Dictionaries and Encyclopedias

Per Enflo

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