High Energy Physics Libraries Webzine 

HEP
Libraries Webzine
Issue 3 / March 2001
Antonella De Robbio (*)
Abstract
The present work briefly describes the Virtual Reference Desk for mathematics
elaborated during the time I worked at the CERN Library [1]
(European Laboratory for Particle Physics or Laboratoire européen
pour la physique des particules) in Geneva.
This instrument is dedicated to the CERN librarians, with whom I have
shared important moments of my professional career. In particular, I would
like to gratefully acknowledge their valuable cooperation and assistance
during our time spent working together.
The Web metasource is comprised of three directories, annotated and
interrelated with dual application:
The first is intended as a work tool for librarians working in mathematics
libraries, but above all for librarians of high energy physics, who more
often than not must turn to mathematics and the use of mathematical applications
and models for the physical sciences and in particular particle physics.
The second is an online resource for mathematics; that is, a Virtual
Reference Desk for the community of mathematicians, with whom I have been
collaborating for some twenty years at the University of Padova.
The bibliographical instrument is born from the need to have at our
disposal a scientific Virtual Reference Desk created according to the needs
of those working in physics and mathematics libraries – a tool which is
comprised of materials collected during years of work as much as material
available online through the use of new technologies.
Introduction
The duality of this bibliographical instrument is reflective of a research methodology oriented towards the disciplines of physics and mathematics, but which is necessarily founded on the traditions of our profession as librarians.
Two components were necessary for the development of this scientific VRD:
The research methodology employed allows the community of librarians,
and above all the mathematicians, to benefit from a classic bibliographical
instrument on a modern support, namely the Web.
The specific nature and significance of this discipline inevitably
lead to the Galilean conception of mathematics as a unique language unlike
any other form of human communication.
The language of mathematics applies to the natural world and permeates
the mechanisms of physical phenomena. Nothing can elude its power of description
through its combinations and variations.
The method and form of this bibliographic instrument are therefore suggested
by the rationality inherent to mathematics. This characteristic is also
implicit in the codified order and in the preestablished rules of our
profession, fundamental to a rational organisation of knowledge.
The contents are selective yet reasoned. The selected resources consist
of the essence of the informational category, as well as being parts of
larger sets.
Mathematics is not a mere collections of facts or coincidences [2]
nor a set of abstract formulas invented for the sole pleasure of the intellect.
It is rather a way of thinking about numbers and models, which has evolved
through the millennia and which transcends race and culture. It responds
to practical needs as well as to aesthetic considerations.
Mathematics is a unique discipline which implicitly comprises its own
logic and which carries with it a certainty of substance absent in other
areas of study. Its sources are both of this world and out of this world;
its formulation, however, is within the human mind.
OnLine Resources for Mathematics in the Scientific Virtual Reference
Desk is imbued with this spirit of pragmatism.
The home page is titled Online resources for mathematics
<http://library.cern.ch/derobbio/mathres/mathres1.html>
It contains approximately 80 references, subdivided by categories, with an index at the beginning.The second directory is headed by Reviews and Data Base Services and contains a detailed description of about ten data bases for mathematics and related disciplines
<http://library.cern.ch/derobbio/mathres/mathdatabase.html>Mathematics and Physics Preprint and ePrint Servers is found on the preprint server page.
<http://library.cern.ch/derobbio/mathres/preprint.html>
Approximately forty mathematics, physics and computer science resources can be found in this directory.
The organisation of the resources within the instrument is as follows:
This section is comprised of several general metasources, for example
the Web server lists of mathematics departments and the coordinates of
mathematicians throughout the world as compiled on Web sites of various
mathematical associations.
One of the most comprehensive lists is the one compiled by Penn State
University:
Mathematics Department
Web servers & People. Lists located at Penn State University
<http://www.math.psu.edu/MathLists/>
Other resources in this category include lists of chat groups and newsgroups.
The most complete among them is found on the site maintained by Mathematics
Archives:
Electronic Newsgroups
and Listservs by MathArchives
<http://archives.math.utk.edu/news.html>
This site contains more than one hundred mathematics chat and newsgroups,
subdivided by areas of interest, and with instructions for membership registration,
listserv functionality and links to the lists themselves.
A list of mathematics software compiled by SINM (Sistema Informativo
Nazionale per la Matematica) in Lecce can also be found.
This section contains links of a historical nature, links to several
bibliographies and lists of quotations, as well as a section containing
miscellaneous resources.
The MacTutor
History of Mathematics archive
<http://wwwgroups.dcs.stand.ac.uk/~history/>
is one of the most complete resources for the history of mathematics.
It contains an index of over 1300 biographies of famous mathematicians,
an archive of some thirty fulltext articles considered classics in the
history of mathematics in different categories and a data base containing
over sixty mathematical curves described within the context of their evolution
and for their properties. The archives in the site are searchable by word
or phrase via a builtin search engine.
The miscellaneous list contains general interest guides, FAQ links for
mathematics and related disciplines.
Quotations
server at Furman University instead is an archive of quotations
by famous mathematicians also searchable by key word <http://math.furman.edu/~mwoodard/mqs/mquot.shtml>
This section also contains other resources such as a directory of documents
and materials on the numbers of Finobacci, a site dedicated to Leibniz,
field mathematician and inventor of the calculus machine, and diplomat
in the court of the Sun King. Mathematics in cinema is considered in A
Guide to Major Motion Pictures with Scenes of Real Mathematics by A. G.
Reinhold.
This section also contains considerable material relating to classifications
schemes in mathematics and related disciplines.
Two logical subsections:
Classification schemes for mathematics
The subsection titled Classification Schemes is comprised of four resources. The first contains various classification schemes, the other three instead focus on the international classification system par excellence, Mathematics Subject Classification (MSC).
This scheme constitutes the standard for a good deal of editorial activity,
indexing and classification, in addition to library management and organisational
activities.
MSC references the synthetic content indications of numerous books,
articles and grey literature. One can also find the MSC scheme as a sector
classification within preprint servers dedicated to mathematics.
It is the classification instrument par excellence also with respect
to encyclopaedic works such as the Encyclopaedia of Mathematics [3],
seminal work born on the shores of the Moscova and now developed on ancient
ferries under the guidance of M. Hazewinkel [4].
MSC is the classification compiled and updated by the editorial offices
of the most important bibliographical directories for mathematical research,
available on paper, CDROM, and online.
The first of the four resources within the VRD for mathematics is the
one found on the AIBWEB site:
AIBWEB Classification
Schemes. Scientific and Technical Disciplines: Computer Science, Engineering,
Physics, Mathematics, Statistics, Geology [7]
This page is intended as a work tool for librarians, which brings together
resources relating to classification schemes available on line. In it one
can find a section for classifications relating to scientific and technical
disciplines: (computer science, engineering, physics, mathematics, statistics,
geology). Specialised classifications: refers to specific area schemes.
This section was later subdivided into broad discipline areas, in as much
as some classifications refer to interrelated or complementary topics,
often comprising different sectors among them.
The specialised classifications correlated to mathematics, in as much
as they refer to complementary disciplines and which have interactions
with the MSC are:
* Physics and Astronomy Classification Scheme (PACS)
* Computing Review by the Association for Computing Machinery (ACMCR)
* International Reviews on Mathematical Education. Zentralblatt fur Didaktik der Mathematik (ZdM)
Many discipline schemes involving or relating to mathematics, such
as PACS for physics and ACM/CR for computer science, have undergone structural
modifications with respect to the way in which mathematics has evolved
in the last few decades, rigorously recorded in the MSC updates. Thus,
as MSC has taken account of the evolution of the other classifications,
the development of structural links between schemes over time has lead
to the creation of new and ever expanding discipline areas which have,
in turn, come to occupy an increasingly important role within the scientific
schemes.
The other three resources of the Virtual Reference Desk for Mathematics in the classification schemes sections are:
The
mathematics classification page: MSC2000 Hvolume libraries
(hypertextual editions MSC2000) by
Antonella De Robbio, Alberto Marini, Dario Maguolo [8]
<http://www.math.unipd.it/~biblio/math/index.html>
Comparison with preceding historical versions of the scheme. The site
offers various instruments: various representations of the 2000 version
accessible in different ways, an Italian version of the scheme, a bilingual
version (English/Italian), a hierarchical tree structure with links from
the scheme to the online resources (guide page from which one can navigate
on the Web in search of sites on mathematics).
Expérimental:
navigation dans MSC, avec interrogation de banques de données
Cellule de Coordination Documentaire Nationale pour les Mathématiques
<http://wwwmathdoc.ujfgrenoble.fr/MSC2000/db.html>
MSC200 classification scheme with multilingual interface. It offers
a multilingual version of the MSC2000: French, English, Italian. The English
version uses original data on the AMS site <www.ams.org/msc>. The Italian
version uses our data from the Padova site <www.math.unipd.it/~biblio/math/>.
Connections
between the classification schemes DDC21 and MSC2000
<http://www.math.unipd.it/~biblio/msccdd/index.html>
A draft presentation for the EULER project for the connection between
Dewey 21.ma ed. and MSC2000 on the site of the library of the mathematics
seminary of the University of Padova.
Mathematics resources organised by classification or
by topic
Several sites contain mathematics resources organised by classification or indexed by topic. Several fundamental collections have been inserted in the mathematics VRD for their selectivity, for the quality of the resources offered, or for the specificity of the digital collection.
The Math
Forum's Internet Mathematics Library
<http://forum.swarthmore.edu/library/topics/>
The Math Forum's Internet Mathematics Library is an annotated catalogue
of Web sites on mathematics and on the didactics of mathematics. The site
is particularly aimed at educators, teachers, students and anyone involved
in the teaching or learning of mathematics at all levels. Math Forum is
a virtual community for mathematics education.
Mathematical
Atlas
<http://www.math.niu.edu/~rusin/knownmath/index/index.html>
The Mathematical Atlas site contains an important collection of articles
on different aspects of mathematics at the university level, but not necessarily
on scientific research. The goal of the collection is to introduce topics
in different areas of modern mathematics, describing fundamental subjects
and results, and offering key references from which one can delve more
deeply on the different aspects.
Also noteworthy is the access mode via the map, which is organised
in a hierarchical order according to discipline:
Clickable
Index Map of Mathematics
<http://www.math.niu.edu/~rusin/knownmath/index/mathmap.html>
Data Bases: Abstracting, Reviewing and Data base Services
This instrument is connected to the General Directory or the main page
of the VRD, but it can also be used independently.
This page offers detailed descriptions of the principal international
bibliographical data bases for mathematics and for related disciplines,
access modes, mirrors, covered periodicals and adjunct services.
The world of mathematics revolves around two data bases for international
mathematics literature: MATH [9] e MathSci
[10].
The first originated in Europe in contrast to the politics of monopoly,
and more closely adhering to the rules of the intellectual property rights
system in the droit d'auter continental countries of Europe, and
more accurately reflecting the needs of the Italian mathematics community.
The second is produced by the American Mathematical Society
(AMS), and reflects the organisation of information in a typically American
fashion, with a mechanism which regulates access and use clearly orientated
to the regime of copyright.
MATH is the electronic version of the famous directory Zentralblatt
fur Mathematik und ihre Grenzgebiete / Mathematics Abstracts (ZM/MA),
also known as Zentralblatt MATH found on the Web.
Zentralblatt fur Mathematik, initially produced by the Deutschen
Akademie der Wissenschaften zu Berlin, and later by the Heidelberg
Akademie der Wissenschaften and the Fachinformationszentrum (FIZ) Karlsruhe,
published by SpringerVerlag, replaced by Jahrbuch für
die Fortschritte der Mathematik (JFM). MATH , European mathematics
data base extant since 1931, is accessible via the Berlinbased site of
the EMISEMS (European Mathematical Information Service  European Mathematical
Society) and through other mirror sites: Strasburg, New York and the Italian
SIBA site in Lecce.
MathSciNet, begun in 1940 by the American Mathematical Society (AMS), is the online version of the two paper directories Mathematical Reviews (MR) and Current Mathematical Publications (CMP) [11]. The bibliographical data base contains 60 years of international mathematics literature or over 1.4 million records (including 60,000 CMP quotations) and approximately 60,000 new additions every year. Articles are selected from some 2300 international mathematics journals (including 1600 currents ones) in addition to 7500 monographs, proceedings, doctoral theses and annual technical reports.
Other mathematics data bases of interest are:
Mathematical Didactics MATHDI [12]
This is the online version of Zentralblatt fur Didaktik der Mathematik,
from 1976 to the present, bibliographical data base on the literature of
mathematics education and related fields. All the relevant periodicals
are covered in the field of mathematical didactics, some 500 titles. The
references, almost all containing an abstract, are in English and German,
and refer to periodicals (50%), textbooks and manuals (30%), reports and
multimedial material. The classification scheme used is the ZDM.
CompuScience [13]
Bibliographical data base produced by Fachinformationszentrum (FIZ)
Karlsruhe. Department of Mathematics & Computer Science Berlin, new
version for the Web, contains some 500,000 references (from 1976 to today
for ACM's Computing Reviews and from 1977 to today for ACM's Guide to Computing
Literature) in addition to Section 68 "Computer Science" by Zentralblatt
fur Mathematik. A careful analysis and evaluation of the individual reviews,
in accordance with the ACM (ACM's Computing Classification System) classification
scheme, ensures an accurate indexation for a high level of information.
The independent page connected to and integrated in the VRD, contains
and describes the more important data bases of the mathematics sector
<http://library.cern.ch/derobbio/mathres/mathdatabase.html>
Mathematics Literature on the Web
The section is subdivided in three parts
Numerous lists for electronic journals in the mathematics
sector are available on line through individual publishers or groups. It
was determined that the list directory
of the American Mathematical Society be included. It offers
500 web links to ToCs (Table of Contents) of periodicals, abstracts, general
information on periodicals (editorial committee, subscription information,
etc...) and when available, the direct link to the fulllength text of
the article.
<http://www.ams.org/mathweb/mijournals5.html>
Other mathematics ejournals lists are:
The Electronic
Library of Mathematics. Ejournals
<http://www.emis.de/journals/index.html>
Mathematics
Virtual Library. Journals
<http://euclid.math.fsu.edu/Science/Journals.html>
Collection maintained by Florida State University, Department of Mathematics.
ejournal
list of interest to mathematicians
<http://www.math.unipd.it/~biblio/seminario/biblioteca/ejourmath.htm>
This is the list found on the site of the Mathematics Seminary Library
of the University of Padova.
This section lists, among others, the most important collections
of digital mathematics volumes or digital libraries for mathematics.
I would like to mention that, in this section, I opted not to include
the OPAC catalogues of the mathematics libraries.
Instead, I chose to create a wholly virtual collection, similar to
what one can find on the Web with respect to digital monographs in physics
and mathematics.
Some of the resources listed are sites which contain or effectively
own the digital collection. Other sites, instead, are gateways which, through
a selective index, connect to the volumes contained on other sites. Thus,
some overlapping is inevitable.
The most important digital collection, for its historical relevance,
is the one housed at Cornell University, created in Cupertino
with the Xerox company.
The project saw the transfer of 571 mathematics texts, dating from
the early part of the nineteenth century, to digital format, primarily
in an effort to preserve the information from deterioration caused by acid
contained in the paper used during that time, but also to make available
an affordable service of print on demand for copies of the texts in question.
Math
Book Collection. Cornell University Library
<http://cdl.library.cornell.edu/cdlmathbrowse.html>
In Europe we have the collection of the Electronic Publishing Committee
of the European Mathematical Monographs.
The Electronic
Library of Mathematics
<http://www.emis.de/monographs/index.html>
which contains some ten monographs, proceedings and general works.
The Catalogue général des documents numérisés
lists only the documents available on Gallica,
on the site of the Bibliotheque Nationale de France. It offers 380 mathematics
texts and 406 physics texts
<http://catalognum2.bnf.fr/html/iframes.htm>
A typical gateway, which connects to digital books in other sites, is
the one maintained by the University of Pennsylvania.
The OnLine
Books Page, contains 302 mathematics and computer science volumes
and 105 physics volumes <http://digital.library.upenn.edu/books/>
Preprint servers for mathematics, physics and computer science
This instrument, as well, is found on an independent page, though closely related to the general VRD. More than forty preprint resources or sites are described.
The directory is divided in four parts:
I will not describe the numerous and noteworthy resources found
in this section. These require separate treatment, as much for descriptive
aspects as for the contents, but also for the implications with respect
to electronic publishing and scientific communication in particular.
Specialised Document Delivery Services for Mathematics
Here are listed several sites which offer services in Document Delivery.
For mathematics, related to MathSciNet, is the Canadian
CISTI Canada Institute for Scientific and Technical Information
<http://www.nrc.ca/cisti/docdel/docdel_e.shtml>
In Europe GAUSS/SSGDocument Delivery (SUB Göttingen),
TIB
in Hannover, and JASONWWW (Universitätsbibliothek
Bielefeld) in German territory are connected to Zentralbatt
Virtual Bookstores for Mathematics
The section relating to services includes several virtual bookstores,
among them the American metaresource
The Mathematics Online Bookshelf and the virtual bookstore
of the AMS, AMS Bookstore,
specialising in mathematics monographs <http://www.ams.org/bookstore/>
Noteworthy for its originality is the Virtual
Bookstore of the CERN
<http://library.cern.ch/acquisitions/amazon_de.html>
The CERN's Scientific Information Service has subscribed to a program
put forth by Amazon, which provides access to the library's catalogue from
the pages of the CERN library. The program grants the CERN library 5% of
proceeds of orders coming throughout this channel. The service is also
available outside of CERN.
Mathematics Projects
In this site, for every project there is a table which describes objectives. I will mention the most important ones for the European context.
EULER
European Libraries and Electronic Resources in Mathematical Sciences
[14]
<http://www.emis.de/projects/EULER/>
The main objective of EULER is to be a "onestop shop" for research
on mathematics information resources such as books, preprints, Web pages,
abstracts, collections of articles and reviews, periodicals, technical
reports and theses. With this in mind, July 1999 saw the development of
a Web metainterface for parallel simultaneous querying, run by the EULER
engine, with protocol z39.50, with a heterogeneous collection of data bases,
in an effort to integrate data gathered from: bibliographical data bases,
OPAC, electronic reviews produced by academic publishers, prepublication
and grey literature servers, and online mathematics resources indices.
Within the scope of European projects on mathematics under EMIS is
the JFM Jahrbuch Electronic
Research Archive for Mathematics (ERAM) [15]
<http://www.emis.de/projects/JFM/> project.
Founded in 1868 by mathematicians Carl Ohrtmann and Felix Müller,
JFM is comprised of 68 volumes for the period 1868 to 1943 with over 200,000
reviews of mathematics publications of the period.
LIMES
Large Infrastructure in Mathematics Enhanced Services
<http://www.emis.de/projects/LIMES/>
The main objective of LIMES is to facilitate the integration of European
data bases with the Zentralblatt data base at the integration centre, through
a distributed system.
Other projects being undertaken in Europe include:
Internet Information Services
for Mathematicians
<http://www.MathNet.de/>
This project comprises MPRESS which has to do with the
European Mathematical Society and the European bibliographical data base
for mathematics MATH Zentralblatt [16].
Through MPRESS the following preprint servers are queried: the French
Index national des prépublications et thèses en mathématiques,
the Austrian JABaPub / Preprints, the Italian SINMMPRESS / Preprints,
the Swedish Preprints from Stockholm, the German MathN / DMathNet.preprints,
in addition to Topology Atlas (preprint servers relating to topology),
the section on mathematics on the site of Augusta on the Los Alamos server
ar.Xiv, Algebraic Number Theory Archives e Ktheory Preprint Archives.
CARMEN
Content Analysis, Retrieval and MetaData: Effective Networking
<http://www.mathematik.uniosnabrueck.de/projects/carmen/index.en.shtml>
is a project, which comprises a "subproject", studying the interconnection
of the different classification schemes.
Mathematics and Information
Numbers were born before writing, though the roots of their origin are
lost in prehistory. If mathematical intuition, as John D. Barrow
teaches us, did not exist in the ancient civilisations, it was even less
evident in primitive ones.
What distinguishes an intellectual creation by a mathematician from
that of another author in the arts or the human sciences is that a mathematical
creation, as an original idea, can be formulated independently in the very
same way by another mathematician somewhere else in the world – someone
from a different culture and education, and living in a completely different
economic and political system. For this reason, mathematical formulas are
considered to be part of the human heritage and not subject to intellectual
property rights protection.
It is very peculiar that different mathematicians, separated by time
and space, should make the same discoveries and express these using identical
"formulations". It is not possible in the field of arts and letters for
two authors in different places and at different times to compose the very
same work.
This observation, as Barrow [17] reminds
us, leads us to think of mathematics as something "completely or partly
independent of human thought" with an objective foundation.
In the Virtual Reference Desk for Mathematics one comes across
a curious resource:
Why is there no Nobel Prize in Mathematics?
There is a Nobel Prize for physics and chemistry, as well as for literature,
medicine and peace. Why not a Nobel Prize for mathematics?
I will conclude this survey of information resource for mathematics
with a pleasant anecdote currently making the rounds in mathematical circles,
particularly in France and in the United States [18],
and which involves two eminent figures of the last two centuries:
the celebrated Swedish mathematician Magnus Gösta MittagLeffler [19]
and Alfred Nobel [20], chemist and inventor of dynamite
by which he amassed his enormous wealth and at the same time became world
famous.
The brilliant and ambitious mathematician was also known for his poetic
genius and his uncommon intellectual allure. Younger than Nobel by thirteen
years, he had studied complex analysis under K. Weierstrass. He was the
founder of the Acta Mathematica, and exercised great influence in the cultural
and academic life of his native Sweden until the end of the last century
[21].
It is told that the famous mathematician won the heart of the woman
with whom Nobel [22] had fallen in love. For this
reason Nobel refused to create a category for mathematics, which would
most certainly be won by his rival [23]. He thus omitted
in his will [24] a prize for mathematics so that no
mathematician would ever be awarded a prize bearing his name [25].
"The mathematician's best work is art, a high perfect art, as
daring as the most secret dreams of imagination, clear and limpid. Mathematical
genius and artistic genius touch one another" [26]
.
This quotation by MittagLeffler, drawn from the Quotation Server at
Furman University, ends my presentation of the Virtual Reference Desk for
Mathematics and underscores the beauty of this discipline which expresses
itself as a fractal opening from within in increasingly smaller infinite
universes and unfolding in spaces stretching to infinity in everexpanding
parallel universes.
[2] My epigraph was inspired by the first sentence in Gaisi Takeuti's "Proof Theory" (1975), "Mathematics is a collection of proofs".
[3] http://www.wkap.nl/series.htm/ENMA
[4] http://dbs.cwi.nl/cwwwi/owa/cwwwi.print_people?ID=472
[6] http://www.emis.de/projects/EULER/
[7] From the AIBWEB site. The World of Online Libraries. Classification "Classification Schemes" by Antonella De Robbio http://www.aib.it/aib/lis/lpi16c.htm
[8] For a more detailed accent of the MSC
classification, see the "2000 Draft version of the Mathematics Subject
Classification (MSC): How is mathematics moving on?" by Antonella De
Robbio, Dario Maguolo, Alberto Marini http://www.math.unipd.it/~biblio/math/analisi/2001.htm
published in an abriged version on the BollettinoAIB, MarchJune
1999 (Vol. 39, n. 1/2)
[9] Information: http://www.zblmath.fizkarlsruhe.de/zbl/index.html
[10] Accessible through the official AMS site in Providence: http://www.ams.org/mathscinet/ and five additional mirror sites
[11] In the original onhost version of MathSci Online are also contained the Current Index to Statistics dell'ASS (CIS), Index to Statistic and Probability della AMS (TUKEY), ACM Guide to Computing Literature (GCL), ACM Computing Reviews, Technical report in Computer Science of the Stanford University, and Eugene Strens Recreational Mathematics Collections of the University of Calgary
[12] Accessible through: http://www.emis.de/MATH/DI.html
[13] Accessible through: http://www.zblmath.fizkarlsruhe.de/cs/CScs.html
[14] The EULER project which revolves around MATH, is cofinanced by the European Commission in the sector Telematics for Libraries; future documentation on the project is available on the EMIS sites. http://www.emis.de/projects/EULER/ (main site); http://emis.csi.it:8888/projects/EULER/ (EMIS mirror site in Torino); http://opac.unifi.it/euler/ (EULER project on the site of the Florence University)
[15] At the present time JFM contains the following volumes already in digital format, with comprehensive bibliographical references and abstracts 120 (18681888); 25 (1893/94); 2830 (18971899); 3234 (19011903); 3839 (19071908); 42 (1911); 45 (1914/1915); 50 (1924); 44, 4649,5156 (19131930): only references.
[16] The use of MetaData DC allows the identification of the preprints found on servers, or to reach other servers connected to gateways, as in the case of the Italian server.
[17] Barrow, John D. "Perché il mondo é matematico", Roma, Laterza, 1998
[18] For a documented answer to the question, refer to the article by L. Gårding e L Hörmander "Why is there no Nobel Prize in Mathematics?", Math. Intelligencer 7 (1985), 7374
[21] Comoglio, Mauro "La strana storia dei matematici e di un premio negato" http://matematica.unibocconi.it/news/nobel.htm
[22] A variation of the story, though less
credible, where the woman in question is supposed to be Nobel's wife, is
found in an article which appeared in La Stampa on October 19, 1997,
http://www.mat.uniroma2.it/txt/conf/arch/1997/rassstampa97/oct97/nobel.html
[23] This hypothesis has been frequently denied in as much as during that time there were many other celebrated mathematicians, among them Hermite, Bertrand, Weierstrass, Poincare, Hilbert
[24] In the first draft of his will, Nobel bequeath a huge gift to the Swedish Academy of Sciences for the creation of the famous prizes which bear his name, namely 10 million crowns to the future University of Stockholm. Unfortunately for MittagLeffler and his colleagues, in the will of November 27, 1895 (Nobel died on December 10, 1896) the bequest was reduced to next to nothing, as Nobel decided to bequeath almost his entire estate to the foundation which bore his name and which was now charged with creating and awarding the celebrated prizes. Equally interesting is the book by Ragnar Sohlman, the chief executor of Alfred Nobel's will. From Da Comoglio, Mauro "La strana storia dei matematici e di un premio negato" http://matematica.unibocconi.it/news/nobel.htm
[25] Nobel Foundation http://www.kva.se/eng/index.html
[26] MittagLeffler, Magnus Gösta. In
N. Rose "Mathematical Maxims and Minims", Raleigh NC: Rome Press
Inc., 1988
email: derobbio@math.unipd.it
Home Page: http://www.math.unipd.it/~derobbio/home/antohp.htm
