Benoit Mandelbrot
Benoit B.[n 1] Mandelbrot[n 2] (20 November 1924 – 14 October 2010) was a Polish-born French-American mathematician and polymath with broad interests in the practical sciences, especially regarding what he labeled as "the art of roughness" of physical phenomena and "the uncontrolled element in life".[6][7][8] He referred to himself as a "fractalist"[9] and is recognized for his contribution to the field of fractal geometry, which included coining the word "fractal", as well as developing a theory of "roughness and self-similarity" in nature.[10]
Benoit[n 1] Mandelbrot | |
---|---|
Born | |
Died | 14 October 2010 85) Cambridge, Massachusetts, U.S. | (aged
Nationality |
|
Alma mater | École Polytechnique California Institute of Technology University of Paris |
Known for | |
Spouse(s) | Aliette Kagan (m. 1955–2010; his death) |
Awards | 2003 Japan Prize 1993 Wolf Prize 1989 Harvey Prize 1986 Franklin Medal 1985 Barnard Medal |
Scientific career | |
Fields | |
Institutions | |
Doctoral advisor | Paul Lévy |
Doctoral students |
In 1936, at the age of 11, Mandelbrot and his family emigrated from Warsaw, Poland, to France. After World War II ended, Mandelbrot studied mathematics, graduating from universities in Paris and in the United States and receiving a master's degree in aeronautics from the California Institute of Technology. He spent most of his career in both the United States and France, having dual French and American citizenship. In 1958, he began a 35-year career at IBM, where he became an IBM Fellow, and periodically took leaves of absence to teach at Harvard University. At Harvard, following the publication of his study of U.S. commodity markets in relation to cotton futures, he taught economics and applied sciences.
Because of his access to IBM's computers, Mandelbrot was one of the first to use computer graphics to create and display fractal geometric images, leading to his discovery of the Mandelbrot set in 1980. He showed how visual complexity can be created from simple rules. He said that things typically considered to be "rough", a "mess", or "chaotic", such as clouds or shorelines, actually had a "degree of order".[11] His math- and geometry-centered research included contributions to such fields as statistical physics, meteorology, hydrology, geomorphology, anatomy, taxonomy, neurology, linguistics, information technology, computer graphics, economics, geology, medicine, physical cosmology, engineering, chaos theory, econophysics, metallurgy, and the social sciences.[12]
Toward the end of his career, he was Sterling Professor of Mathematical Sciences at Yale University, where he was the oldest professor in Yale's history to receive tenure.[13] Mandelbrot also held positions at the Pacific Northwest National Laboratory, Université Lille Nord de France, Institute for Advanced Study and Centre National de la Recherche Scientifique. During his career, he received over 15 honorary doctorates and served on many science journals, along with winning numerous awards. His autobiography, The Fractalist: Memoir of a Scientific Maverick, was published posthumously in 2012.
Early years
External video | |
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Family background and early education, (4:11) Benoit Mandelbrot interview, Part 1 of 144, Web of Stories[14] |
Benedykt Mandelbrot[15] was born in a Lithuanian Jewish family, in Warsaw during the Second Polish Republic.[16] His father made his living trading clothing; his mother was a dental surgeon. During his first two school years, he was tutored privately by an uncle who despised rote learning: "Most of my time was spent playing chess, reading maps and learning how to open my eyes to everything around me."[17] In 1936, when he was 11, the family emigrated from Poland to France. The move, World War II, and the influence of his father's brother, the mathematician Szolem Mandelbrojt (who had moved to Paris around 1920), further prevented a standard education. "The fact that my parents, as economic and political refugees, joined Szolem in France saved our lives," he writes.[9]: 17 [18]
Mandelbrot attended the Lycée Rollin (now the Collège-lycée Jacques-Decour) in Paris until the start of World War II, when his family moved to Tulle, France. He was helped by Rabbi David Feuerwerker, the Rabbi of Brive-la-Gaillarde, to continue his studies.[9]: 62–63 [19] Much of France was occupied by the Nazis at the time, and Mandelbrot recalls this period:
Our constant fear was that a sufficiently determined foe might report us to an authority and we would be sent to our deaths. This happened to a close friend from Paris, Zina Morhange, a physician in a nearby county seat. Simply to eliminate the competition, another physician denounced her ... We escaped this fate. Who knows why?[9]: 49
In 1944, Mandelbrot returned to Paris, studied at the Lycée du Parc in Lyon, and in 1945 to 1947 attended the École Polytechnique, where he studied under Gaston Julia and Paul Lévy. From 1947 to 1949 he studied at California Institute of Technology, where he earned a master's degree in aeronautics.[2] Returning to France, he obtained his PhD degree in Mathematical Sciences at the University of Paris in 1952.[17]
Research career
From 1949 to 1958, Mandelbrot was a staff member at the Centre National de la Recherche Scientifique. During this time he spent a year at the Institute for Advanced Study in Princeton, New Jersey, where he was sponsored by John von Neumann. In 1955 he married Aliette Kagan and moved to Geneva, Switzerland (to collaborate with Jean Piaget at the International Centre for Genetic Epistemology) and later to the Université Lille Nord de France.[20] In 1958 the couple moved to the United States where Mandelbrot joined the research staff at the IBM Thomas J. Watson Research Center in Yorktown Heights, New York.[20] He remained at IBM for 35 years, becoming an IBM Fellow, and later Fellow Emeritus.[17]
From 1951 onward, Mandelbrot worked on problems and published papers not only in mathematics but in applied fields such as information theory, economics, and fluid dynamics.
Randomness and fractals in financial markets
Mandelbrot saw financial markets as an example of "wild randomness", characterized by concentration and long-range dependence. He developed several original approaches for modelling financial fluctuations.[21] In his early work, he found that the price changes in financial markets did not follow a Gaussian distribution, but rather Lévy stable distributions having infinite variance. He found, for example, that cotton prices followed a Lévy stable distribution with parameter α equal to 1.7 rather than 2 as in a Gaussian distribution. "Stable" distributions have the property that the sum of many instances of a random variable follows the same distribution but with a larger scale parameter.[22] The latter work from the early 60s was done with daily data of cotton prices from 1900, long before he introduced the word 'fractal'. In later years, after the concept of fractals had matured, the study of financial markets in the context of fractals became possible only after the availability of high frequency data in finance. In the late 1980s, Mandelbrot used intra-daily tick data supplied by Olsen & Associates in Zurich[23][24] to apply fractal theory to market microstructure. This cooperation lead to the publication of the first comprehensive papers on scaling law in finance.[25][26] This law shows similar properties at different time scales, confirming Mandelbrot's insight of the fractal nature of market microstructure. Mandelbrot's own research in this area is presented in his books Fractals and Scaling in Finance[27] and The (Mis)behavior of Markets.[28]
Developing "fractal geometry" and the Mandelbrot set
As a visiting professor at Harvard University, Mandelbrot began to study mathematical objects called Julia sets that were invariant under certain transformations of the complex plane. Building on previous work by Gaston Julia and Pierre Fatou, Mandelbrot used a computer to plot images of the Julia sets. While investigating the topology of these Julia sets, he studied the Mandelbrot set which was introduced by him in 1979.
In 1975, Mandelbrot coined the term fractal to describe these structures and first published his ideas in the French book Les Objets Fractals: Forme, Hasard et Dimension, later translated in 1977 as Fractals: Form, Chance and Dimension.[29] According to computer scientist and physicist Stephen Wolfram, the book was a "breakthrough" for Mandelbrot, who until then would typically "apply fairly straightforward mathematics ... to areas that had barely seen the light of serious mathematics before".[11] Wolfram adds that as a result of this new research, he was no longer a "wandering scientist", and later called him "the father of fractals":
Mandelbrot ended up doing a great piece of science and identifying a much stronger and more fundamental idea—put simply, that there are some geometric shapes, which he called "fractals", that are equally "rough" at all scales. No matter how close you look, they never get simpler, much as the section of a rocky coastline you can see at your feet looks just as jagged as the stretch you can see from space.[11]
Wolfram briefly describes fractals as a form of geometric repetition, "in which smaller and smaller copies of a pattern are successively nested inside each other, so that the same intricate shapes appear no matter how much you zoom in to the whole. Fern leaves and Romanesque broccoli are two examples from nature."[11] He points out an unexpected conclusion:
One might have thought that such a simple and fundamental form of regularity would have been studied for hundreds, if not thousands, of years. But it was not. In fact, it rose to prominence only over the past 30 or so years—almost entirely through the efforts of one man, the mathematician Benoit Mandelbrot.[11]
Mandelbrot used the term "fractal" as it derived from the Latin word "fractus", defined as broken or shattered glass. Using the newly developed IBM computers at his disposal, Mandelbrot was able to create fractal images using graphics computer code, images that an interviewer described as looking like "the delirious exuberance of the 1960s psychedelic art with forms hauntingly reminiscent of nature and the human body". He also saw himself as a "would-be Kepler", after the 17th-century scientist Johannes Kepler, who calculated and described the orbits of the planets.[30]
Mandelbrot, however, never felt he was inventing a new idea. He described his feelings in a documentary with science writer Arthur C. Clarke:
Exploring this set I certainly never had the feeling of invention. I never had the feeling that my imagination was rich enough to invent all those extraordinary things on discovering them. They were there, even though nobody had seen them before. It's marvelous, a very simple formula explains all these very complicated things. So the goal of science is starting with a mess, and explaining it with a simple formula, a kind of dream of science.[31]
According to Clarke, "the Mandelbrot set is indeed one of the most astonishing discoveries in the entire history of mathematics. Who could have dreamed that such an incredibly simple equation could have generated images of literally infinite complexity?" Clarke also notes an "odd coincidence":
the name Mandelbrot, and the word "mandala"—for a religious symbol—which I'm sure is a pure coincidence, but indeed the Mandelbrot set does seem to contain an enormous number of mandalas.[31]
In 1982, Mandelbrot expanded and updated his ideas in The Fractal Geometry of Nature.[32] This influential work brought fractals into the mainstream of professional and popular mathematics, as well as silencing critics, who had dismissed fractals as "program artifacts".
Mandelbrot left IBM in 1987, after 35 years and 12 days, when IBM decided to end pure research in his division.[33] He joined the Department of Mathematics at Yale, and obtained his first tenured post in 1999, at the age of 75.[34] At the time of his retirement in 2005, he was Sterling Professor of Mathematical Sciences.
Fractals and the "theory of roughness"
Mandelbrot created the first-ever "theory of roughness", and he saw "roughness" in the shapes of mountains, coastlines and river basins; the structures of plants, blood vessels and lungs; the clustering of galaxies. His personal quest was to create some mathematical formula to measure the overall "roughness" of such objects in nature.[9]: xi He began by asking himself various kinds of questions related to nature:
Can geometry deliver what the Greek root of its name [geo-] seemed to promise—truthful measurement, not only of cultivated fields along the Nile River but also of untamed Earth?[9]: xii
In his paper "How Long Is the Coast of Britain? Statistical Self-Similarity and Fractional Dimension", published in Science in 1967, Mandelbrot discusses self-similar curves that have Hausdorff dimension that are examples of fractals, although Mandelbrot does not use this term in the paper, as he did not coin it until 1975. The paper is one of Mandelbrot's first publications on the topic of fractals.[35][36]
Mandelbrot emphasized the use of fractals as realistic and useful models for describing many "rough" phenomena in the real world. He concluded that "real roughness is often fractal and can be measured."[9]: 296 Although Mandelbrot coined the term "fractal", some of the mathematical objects he presented in The Fractal Geometry of Nature had been previously described by other mathematicians. Before Mandelbrot, however, they were regarded as isolated curiosities with unnatural and non-intuitive properties. Mandelbrot brought these objects together for the first time and turned them into essential tools for the long-stalled effort to extend the scope of science to explaining non-smooth, "rough" objects in the real world. His methods of research were both old and new:
The form of geometry I increasingly favored is the oldest, most concrete, and most inclusive, specifically empowered by the eye and helped by the hand and, today, also by the computer ... bringing an element of unity to the worlds of knowing and feeling ... and, unwittingly, as a bonus, for the purpose of creating beauty.[9]: 292
Fractals are also found in human pursuits, such as music, painting, architecture, and stock market prices. Mandelbrot believed that fractals, far from being unnatural, were in many ways more intuitive and natural than the artificially smooth objects of traditional Euclidean geometry:
Clouds are not spheres, mountains are not cones, coastlines are not circles, and bark is not smooth, nor does lightning travel in a straight line.
—Mandelbrot, in his introduction to The Fractal Geometry of Nature
Mandelbrot has been called an artist, and a visionary[37] and a maverick.[38] His informal and passionate style of writing and his emphasis on visual and geometric intuition (supported by the inclusion of numerous illustrations) made The Fractal Geometry of Nature accessible to non-specialists. The book sparked widespread popular interest in fractals and contributed to chaos theory and other fields of science and mathematics.
Mandelbrot also put his ideas to work in cosmology. He offered in 1974 a new explanation of Olbers' paradox (the "dark night sky" riddle), demonstrating the consequences of fractal theory as a sufficient, but not necessary, resolution of the paradox. He postulated that if the stars in the universe were fractally distributed (for example, like Cantor dust), it would not be necessary to rely on the Big Bang theory to explain the paradox. His model would not rule out a Big Bang, but would allow for a dark sky even if the Big Bang had not occurred.[39]
Awards and honors
Mandelbrot's awards include the Wolf Prize for Physics in 1993, the Lewis Fry Richardson Prize of the European Geophysical Society in 2000, the Japan Prize in 2003,[40] and the Einstein Lectureship of the American Mathematical Society in 2006.
The small asteroid 27500 Mandelbrot was named in his honor. In November 1990, he was made a Chevalier in France's Legion of Honour. In December 2005, Mandelbrot was appointed to the position of Battelle Fellow at the Pacific Northwest National Laboratory.[41] Mandelbrot was promoted to an Officer of the Legion of Honour in January 2006.[42] An honorary degree from Johns Hopkins University was bestowed on Mandelbrot in the May 2010 commencement exercises.[43]
A partial list of awards received by Mandelbrot:[44]
- 2004 Best Business Book of the Year Award
- AMS Einstein Lectureship
- Barnard Medal
- Caltech Service
- Casimir Funk Natural Sciences Award
- Charles Proteus Steinmetz Medal
- High School Spelling Bee (1940)
- Fellow, American Geophysical Union
- Fellow of the American Statistical Association[45]
- Fellow of the American Physical Society (1987) [46]
- Franklin Medal
- Harvey Prize (1989)
- Honda Prize
- Humboldtpreis
- IBM Fellowship
- Japan Prize (2003)
- John Scott Award
- Légion d'honneur (Legion of Honour)
- Lewis Fry Richardson Medal
- Medaglia della Presidenza della Repubblica Italiana
- Médaille de Vermeil de la Ville de Paris
- Nevada Prize
- Member of the Norwegian Academy of Science and Letters.[47]
- Member of the American Philosophical Society (2004) [48]
- Science for Art
- Sven Berggren-Priset
- Wacław Sierpiński medal of the Polish Mathematical Society (2005) [49]
- Władysław Orlicz Prize
- Wolf Foundation Prize for Physics (1993)
Death and legacy
Mandelbrot died from pancreatic cancer at the age of 85 in a hospice in Cambridge, Massachusetts, on 14 October 2010.[1][50] Reacting to news of his death, mathematician Heinz-Otto Peitgen said: "[I]f we talk about impact inside mathematics, and applications in the sciences, he is one of the most important figures of the last fifty years."[1]
Chris Anderson, TED conference curator, described Mandelbrot as "an icon who changed how we see the world".[51] Nicolas Sarkozy, President of France at the time of Mandelbrot's death, said Mandelbrot had "a powerful, original mind that never shied away from innovating and shattering preconceived notions [... h]is work, developed entirely outside mainstream research, led to modern information theory."[52] Mandelbrot's obituary in The Economist points out his fame as "celebrity beyond the academy" and lauds him as the "father of fractal geometry".[53]
Best-selling essayist-author Nassim Nicholas Taleb has remarked that Mandelbrot's book The (Mis)Behavior of Markets is in his opinion "The deepest and most realistic finance book ever published".[10]
Bibliography
In English
- Fractals: Form, Chance and Dimension, 1977, 2020
- The Fractal Geometry of Nature, 1982
- Mandelbrot, Benoît B. (1983). The Fractal Geometry of Nature. San Francisco: W.H. Freeman. ISBN 978-0-7167-1186-5.
- Mandelbrot, B. (1959) Variables et processus stochastiques de Pareto-Levy, et la repartition des revenus. Comptes rendus de l'Académie des Sciences de Paris, 249, 613–615.
- Mandelbrot, B. (1960) The Pareto-Levy law and the distribution of income. International Economic Review, 1, 79–106.
- Mandelbrot, B. (1961) Stable Paretian random functions and the multiplicative variation of income. Econometrica, 29, 517–543.
- Mandelbrot, B. (1964) Random walks, fire damage amount and other Paretian risk phenomena. Operations Research, 12, 582–585.
- Fractals and Scaling in Finance: Discontinuity, Concentration, Risk. Selecta Volume E, 1997 by Benoit B. Mandelbrot and R.E. Gomory
- Mandelbrot, Benoit B. (1997) Fractals and Scaling in Finance: Discontinuity, Concentration, Risk, Springer.
- Fractales, hasard et finance, 1959–1997, 1 November 1998
- Multifractals and 1/ƒ Noise: Wild Self-Affinity in Physics (1963–1976) (Selecta; V.N) 18 January 1999 by J.M. Berger and Benoit B. Mandelbrot
- Mandelbrot, Benoît (February 1999). "A Multifractal Walk down Wall Street". Scientific American. 280 (2): 70. Bibcode:1999SciAm.280b..70M. doi:10.1038/scientificamerican0299-70.
- Gaussian Self-Affinity and Fractals: Globality, The Earth, 1/f Noise, and R/S (Selected Works of Benoit B. Mandelbrot) 14 December 2001 by Benoit Mandelbrot and F.J. Damerau
- Mandelbrot, Benoit B., Gaussian Self-Affinity and Fractals, Springer: 2002.
- Fractals and Chaos: The Mandelbrot Set and Beyond, 9 January 2004
- The Misbehavior of Markets: A Fractal View of Financial Turbulence, 2006 by Benoit Mandelbrot and Richard L. Hudson
- Mandelbrot, Benoit B. (2010). The Fractalist, Memoir of a Scientific Maverick. New York: Vintage Books, Division of Random House. ISBN 978-0-307-38991-6
- The Fractalist: Memoir of a Scientific Maverick, 2014
- Hudson, Richard L.; Mandelbrot, Benoît B. (2004). The (Mis)Behavior of Markets: A Fractal View of Risk, Ruin, and Reward. New York: Basic Books. ISBN 978-0-465-04355-2.
- Heinz-Otto Peitgen, Hartmut Jürgens, Dietmar Saupe and Cornelia Zahlten: Fractals: An Animated Discussion (63 min video film, interviews with Benoît Mandelbrot and Edward Lorenz, computer animations), W.H. Freeman and Company, 1990. ISBN 0-7167-2213-5 (re-published by Films for the Humanities & Sciences, ISBN 978-0-7365-0520-8)
- Mandelbrot, Benoît; Taleb, Nassim (23 March 2006). "A focus on the exceptions that prove the rule". Financial Times. Archived from the original on 23 October 2010. Retrieved 17 October 2010.
- "Hunting the Hidden Dimension: mysteriously beautiful fractals are shaking up the world of mathematics and deepening our understanding of nature", NOVA, WGBH Educational Foundation, Boston for PBS, first aired 28 October 2008.
See also
- 1/f noise – Signal with equal energy per octave
- Fractal dimension – Ratio providing a statistical index of complexity variation with scale
- Fractional Brownian motion
- How Long is the Coast of Britain? – 1967 paper by Benoît Mandelbrot on fractals
- Hurst exponent – A measure of the long-range dependence of a time series
- Kurtosis risk – Term in decision theory
- Lacunarity – Term in geometry and fractal analysis
- Louis Bachelier – French pioneer in mathematical economics (1870-1946)
- Mandelbrot Competition – High school mathematics competition
- Multifractal system – System with multiple fractal dimensions
- Self-similarity – Whole of an object being mathematically similar to part of itself
- Seven states of randomness – Extensions of the concept of randomness
- Skewness risk – Financial modeling term
- Zipf–Mandelbrot law – Discrete probability distribution
Notes
- In his autobiography, Mandelbrot did not add a circumflex to the "i" (i.e. "î") in his first name, as is usual for the French given name. He included "B" as a middle initial. His New York Times obituary stated that "he added the middle initial himself, though it does not stand for a middle name",[1] an assertion that is supported by his obituary in The Guardian.[2]
- Pronounced /ˈmændəlbrɒt/ MAN-dəl-brot or /ˈmændəlbroʊt/ MAN-dəl-broht in English.[3][4] When speaking in French, Mandelbrot pronounced his name [bənwa mɑ̃dɛlbʁot].[5]
References
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- "Mandelbrot". Oxford English Dictionary (Online ed.). Oxford University Press. (Subscription or participating institution membership required.)
- Wells, John C. (2008). Longman Pronunciation Dictionary (3rd ed.). Longman. ISBN 978-1-4058-8118-0.
- Recording of the ceremony on 11 September 2006 at which Mandelbrot received the insignia for an Officer of the Légion d'honneur.
- "Remembering the Father of Fractals". 22 October 2010. Archived from the original on 8 January 2018. Retrieved 8 January 2018.
- Mandelbrot, Benoit (February 2010), "Fractals and the art of roughness", TED.com, archived from the original on 14 April 2016
- Hudson & Mandelbrot, Prelude, page xviii
- Mandelbrot, Benoit (2012). The Fractalist: Memoir of a Scientific Maverick. Pantheon Books. ISBN 978-0-307-38991-6.
- Gomory, R. (2010). "Benoît Mandelbrot (1924–2010)". Nature. 468 (7322): 378. Bibcode:2010Natur.468..378G. doi:10.1038/468378a. PMID 21085164. S2CID 4393964.
- Wolfram, Stephen (22 November 2012). "The Father of Fractals". The Wall Street Journal. Archived from the original on 25 August 2017.
- list includes specific sciences mentioned in Hudson & Mandelbrot, the Prelude, p. xvi, and p. 26
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- Cont, Rama (15 May 2010). "Mandelbrot, Benoit". Encyclopedia of Quantitative Finance. pp. eqf01006. doi:10.1002/9780470061602.eqf01006. ISBN 9780470057568.
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Dr. Mandelbrot traced his work on fractals to a question he first encountered as a young researcher: how long is the coast of Britain?"
- Mandelbrot, Benoit B. (5 May 1967). "How long is the coast of Britain? Statistical self-similarity and fractional dimension" (PDF). Science. 156 (3775): 636–638. Bibcode:1967Sci...156..636M. doi:10.1126/science.156.3775.636. PMID 17837158. S2CID 15662830. Archived from the original on 13 July 2015. Retrieved 11 January 2016.
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- "Medal i Wykład im. Wacława Sierpińskiego | Polskie Towarzystwo Matematyczne". Retrieved 21 January 2023.
- "Benoît Mandelbrot, fractals pioneer, dies". United Press International. 16 October 2010. Archived from the original on 22 October 2012. Retrieved 17 October 2010.
- "Mandelbrot, father of fractal geometry, dies". The Gazette. Archived from the original on 19 October 2010. Retrieved 16 October 2010.
- "Sarkozy rend hommage à Mandelbrot" [Sarkozy pays homage to Mandelbrot]. Le Figaro (in French). Archived from the original on 28 July 2013. Retrieved 17 October 2010.
- Benoît Mandelbrot's obituary Archived 24 October 2010 at the Wayback Machine. The Economist (21 October 2010)
Sources
- Frame, Michael; Cohen, Nathan (2015). Benoit Mandelbrot: A Life in Many Dimensions. Singapore: World Scientific Publishing Company. ISBN 978-981-4366-06-9.
External links
- Benoit Mandelbrot at the Mathematics Genealogy Project
- Mandelbrot's page at Yale
- "Benoît Mandelbrot: Fractals and the art of roughness" Archived 17 February 2014 at the Wayback Machine (TED address).
- Fractals in Science, Engineering and Finance (lecture).
- FT.com interview on the subject of the financial markets which includes his critique of the "efficient market" hypothesis.
- Taylor, Richard (2011). "Obituaries: Benoit Mandelbrot". Physics Today. 64 (6): 63. Bibcode:2011PhT....64f..63T. doi:10.1063/1.3603925.
- Mandelbrot relates his life story (Web of Stories).
- Interview (1 January 1981, Ithaca, NY) held by the Eugene Dynkin Collection of Mathematics Interviews, Cornell University Library.
- Video animation of Mandelbrot set, zoom factor 10342.
- Video animation of Mandelbulb on YouTube, a three-dimensional Mandelbrot-set projection.
- Video fly-through an animated Mandelbulb world on YouTube
- Benoit Mandelbrot at IMDb
- Benoit Mandelbrot at TED
- Michael Frame, "Benoit B. Mandelbrot", Biographical Memoirs of the National Academy of Sciences (2014)