#1,027

Most Influential Person

British-American computer scientist, mathematician, physicist, writer and businessman

According to Wikipedia, Stephen Wolfram is a British-American computer scientist, physicist, and businessman. He is known for his work in computer science, mathematics, and in theoretical physics. In 2012, he was named a fellow of the American Mathematical Society.

- The Mathematica Book (1996) (3869)
- A new kind of science (2002) (3054)
- Statistical mechanics of cellular automata (1983) (2658)
- Mathematica - a system for doing mathematics by computer, 2nd Edition (1988) (2560)
- Universality and complexity in cellular automata (1983) (1962)
- Theory and Applications of Cellular Automata (1986) (1648)
- Cellular automata as models of complexity (1984) (1378)
- Cellular Automata And Complexity (1994) (895)
- Critical Transitions in Nature and Society (2010) (670)
- Cellular automaton fluids 1: Basic theory (1986) (610)
- A System for Doing Mathematics by Computer. (1992) (539)
- Random sequence generation by cellular automata (1986) (483)
- Two-dimensional cellular automata (1985) (468)
- The Mathematica book (4th edition) (1999) (435)
- Algebraic properties of cellular automata (1984) (414)
- The Mathematica book (3rd ed.) (1996) (393)
- Observables for the Analysis of Event Shapes in e+ e- Annihilation and Other Processes (1978) (369)
- Computation theory of cellular automata (1984) (322)
- Cryptography with Cellular Automata (1985) (302)
- Properties of the vacuum. I. mechanical and thermodynamic (1983) (298)
- Baryon number generation in the early universe (1980) (249)
- Twenty Problems in the Theory of Cellular Automata (1985) (191)
- The Mathematica book, 5th Edition (2003) (174)
- Computer Software in Science and Mathematics. (1984) (138)
- Bounds on particle masses in the Weinberg-Salam model (1979) (122)
- A QCD Model for e+ e- Annihilation (1983) (120)
- A model for parton showers in QCD (1980) (117)
- Abundances of new stable particles produced in the early universe (1979) (116)
- Event shapes in e+e− annihilation (1979) (104)
- In Partial Fulfillment of the Requirements for the degree of (1980) (102)
- An Elementary Introduction to the Wolfram Language (2015) (100)
- Quantum-chromodynamic estimates for heavy-particle production (1978) (92)
- Geometry of Binomial Coefficients (1984) (84)
- Cellular automata : proceedings of an interdisciplinary workshop, Los Alamos, New Mexico 87545, USA, March 7-11, 1983 (1984) (67)
- Cellular Automata And Complexity: Collected Papers (2019) (65)
- Theory and Applications of Cellular Automata: Including Selected Papers 1983-1986 (1986) (64)
- Approaches to complexity engineering (1986) (64)
- Cellular automata as simple self-organizing systems (1982) (55)
- Properties of the vacuum. 2. Electrodynamic (1983) (55)
- Tests for planar events in e+e− annihilation (1979) (39)
- The development of baryon asymmetry in the early universe (1980) (35)
- Symbolic mathematical computation (1985) (34)
- Spontaneous symmetry breaking and the expansion rate of the early universe (1980) (32)
- A Class of Models with the Potential to Represent Fundamental Physics (2020) (31)
- Calculation of Cosmological Baryon Asymmetry in Grand Unified Gauge Models (1982) (30)
- Tablet: personal computer of the year 2000 (1988) (29)
- One-dimensional Cellular Automata (26)
- Mathematica reference guide (1992) (20)
- SMP - A Symbolic Manipulation Program (1981) (19)
- Mathematica - the student book (1990) (18)
- Computational Law, Symbolic Discourse, and the AI Constitution (2018) (15)
- Lepton energy spectra in e+e- annihilation and other processes (1977) (12)
- Positivity constraints on quark and gluon distributions in QCD (1978) (12)
- The mathematica book -the definitive best-selling presentation of mathematica by the creator of the system; mathematica version 4, 4th Edition (1999) (11)
- Cellular automaton supercomputing (1987) (10)
- Complex Systems Theory 1 (2018) (10)
- Cosmological constraints on heavy weakly interacting fermions (1981) (8)
- Cellular automation supercomputing (1988) (8)
- QCD expectations for high-energy hadronic collisions (1982) (7)
- Electromagnetic radiative corrections to deep-inelastic neutrino interactions (1979) (6)
- Mathematica ® 3.0 Standard Add-on Packages (1993) (6)
- What Is Ultimately Possible in Physics (2012) (6)
- ABUNDANCES OF STABLE PARTICLES PRODUCED IN THE EARLY UNIVERSE (2008) (5)
- Cosmology with very large gauge models (1983) (5)
- Event shapes in deep inelastic lepton-hadron scattering☆ (1980) (5)
- Cellular Automata and Condensed Matter Physics (1991) (5)
- Transverse-momentum and angular distributions of hadroproduced muon pairs (1978) (5)
- A GALLIMAUFRY OF e+ e- ANNIHILATION EVENT SHAPES (1979) (5)
- Neutral weak interactions and particle decays (1976) (4)
- Is the universe random (2011) (4)
- Cosmological baryon-number generation in grand unified models (1981) (3)
- A Class of Models with the Potential to Represent Fundamental Physics (2020) (3)
- After 100 Years, Can We Finally Crack Post's Problem of Tag? A Story of Computational Irreducibility, and More (2021) (3)
- How do simple programs behave (2006) (3)
- Tables of Cellular Automaton Properties : 1986 (2018) (3)
- A New Kind of Science: A 15-Year View (2017) (3)
- Computer algebra: a 32-year update (2013) (3)
- Applications of Mathematica (1992) (2)
- What We've built Is a computational language (and that's very important!) (2020) (2)
- Thermodynamics and Hydrodynamics of Cellular Automata : 1985 (2018) (2)
- BOOK REVIEW on A New Kind of Science by Stephen Wolfram Wolfram (2001) (2)
- The Future of Computation (2006) (2)
- Are All Fish the Same Shape If You Stretch Them? The Victorian Tale of On Growth and Form (2018) (1)
- Remembering Richard Crandall (1947--2012) (2013) (1)
- Weak effects in. sigma. /sup 0/ decay (1979) (1)
- WORKING DRAFT-NOT FOR PUBLICATION Scientific Computation with the Connection Machine (2008) (1)
- Complex Systems Theory : 1988 (2018) (1)
- Black Hole Tech? (2016) (1)
- What is computation? (how) does nature compute? (2011) (1)
- Weak effects in Σ 0 decay (1979) (1)
- Hadronic Electrons? (2010) (1)
- Exploring Rulial Space: The Case of Turing Machines (2021) (1)
- Speaker Normalization with All-pass Transforms Center for Language and Speech Processing 72 Speaker Normalization with All-pass Transforms (1998) (1)
- Logic, Explainability and the Future of Understanding (2019) (1)
- Statistical Mechanics of Cellular Automata : 1983 (2018) (1)
- Heavy-particle production by cosmic rays (1979) (1)
- Cellular Automaton Fluids: Basic Theory : 1986 (2018) (1)
- Mathematica - reference guide: for Mathematica Version 2 (1992) (1)
- Introducing Mathematica (videotape) (1989) (0)
- Minimal Cellular Automaton Approximations to Continuum Systems (2018) (0)
- A century of Turing (2017) (0)
- Combinators and the Story of Computation (2021) (0)
- Enterpreneurism in Science & Business: A Personal Case Study (2007) (0)
- Analytical and empirical mathematics with computers (1990) (0)
- The Practical and Theoretical Future of Computation in Physics (2019) (0)
- Almost twenty years ago, I heard Stephen Wolfram speak at a Gordon Conference (2002) (0)
- Computational Law, Symbolic Discourse, and the AI Constitution (2018) (0)
- Taking Advantage of the Notebook Front End (1992) (0)
- The Road to Intrinsic Randomness (2011) (0)
- Constrained Eden (2009) (0)
- SOME TOPICS IN THEORETICAL HIGH-ENERGY PHYSICS (1979) (0)
- A Bibliography of Combinators (2021) (0)
- COMPUTING: A NEW TOOL FOR FUNDAMENTAL PHYSICS (2010) (0)
- New Directions in the Foundations of Mathematics (2002) (2013) (0)
- What Alan Turing Might Have Discovered (2016) (0)
- Two- and three-point energy correlations in Hadronice+e− annihilation (1980) (0)
- Pyrotechnic Switch with Fuse Function (2019) (0)
- Where Did Combinators Come From? Hunting the Story of Moses Sch\"onfinkel (2021) (0)
- Are All Fish the Same Shape If You Stretch Them? The Victorian Tale of On Growth and Form (2021) (0)
- Approaches to Complexity Engineering : 1986 (2018) (0)
- Cryptography with Cellular Automata : 1986 (2018) (0)
- The Problem of Distributed Consensus: A Survey (2021) (0)
- The Reform of Mathematical Notation ] Computation , Mathematical Notation , and Linguistics (2011) (0)
- Association for Computing Machinery. 1984 Computer Science Conference (1983) (0)
- NOTES ON A MODEL OF TWO-PHASE FLOW IN POBOUS MEDIA (2008) (0)
- The Mathematica book - Mathematica Version 3, 3rd Edition (1996) (0)
- Open Discussion on A Computable Universe (2012) (0)
- Multiway Turing Machines (2021) (0)
- Two-and Three-point Energy Correlations in Hadronic e + e-Annihilation * (2010) (0)
- Combinators: A Centennial View (2021) (0)
- Dropping In on Gottfried Leibniz (2020) (0)
- SOME MODELS FOR THE MASSIVE NARROW RESONANCES IK e"*" e" ANNIHILATION (2009) (0)
- Geometry of Binomial Coefficients : 1984 (2018) (0)
- Is the Universe Like π or Ω? (2012) (0)
- Erratum: Heavy-particle production by cosmic rays (1979) (0)
- The Empirical Metamathematics of Euclid and Beyond (2021) (0)
- The Prime Number Theorem (2016) (0)
- Some Modern Perspectives on the Quest for Ultimate Knowledge (2007) (0)
- The Computational Structure of Programs and the Universe (2021) (0)
- Opening the book of revelations (2002) (0)
- Multicomputation with Numbers: The Case of Simple Multiway Systems (2021) (0)
- Is the Universe a Universal Computer? a New Kind of Science (0)
- Computers in Science and Mathematics (2018) (0)
- Special Section on Computing at the Frontiers of Theoretical Physics - Introduction (1985) (0)

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Stephen Wolfram is affiliated with the following schools:

Stephen Wolfram is most known for their academic work in the field of computer science. They are also known for their academic work in the fields of physics, mathematics, business, and literature.

Stephen Wolfram has made the following academic contributions:

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