Stephen Wolfram

About

From 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.

Published Works

• Statistical mechanics of cellular automata
• Universality and complexity in cellular automata
• Cellular automata as models of complexity
• Observables for the Analysis of Event Shapes ine+e−Annihilation and Other Processes
• Cellular automaton fluids 1: Basic theory
• Computation theory of cellular automata
• Properties of the vacuum. I. Mechanical and thermodynamic
• Two-dimensional cellular automata
• Random sequence generation by cellular automata
• Baryon number generation in the early universe
Algebraic properties of cellular automata
Cryptography with Cellular Automata
Abundances of new stable particles produced in the early universe
Bounds on particle masses in the Weinberg-Salam model
Event shapes in e+e− annihilation
Undecidability and intractability in theoretical physics
A model for parton showers in QCD
Quantum-chromodynamic estimates for heavy-particle production
A QCD model for e+e− annihilation
Twenty Problems in the Theory of Cellular Automata
Origins of randomness in physical systems
Computer Software in Science and Mathematics
The development of baryon asymmetry in the early universe
Tests for planar events in e+e− annihilation
Calculation of cosmological baryon asymmetry in grand unified gauge models
Properties of the vacuum. 2. Electrodynamic
Geometry of Binomial Coefficients
Approaches to Complexity Engineering
Cellular Automata and Complexity
Cellular Automata and Complexity
Geometry of Binomial Coefficients
Positivity constraints on quark and gluon distributions in QCD
Cosmological constraints on heavy weakly interacting fermions
Symbolic mathematical computation
QCD expectations for high-energy hadronic collisions
SMP - A Symbolic Manipulation Program
Heavy-particle production by cosmic rays
Electromagnetic radiative corrections to deep-inelastic neutrino interactions
Neutral weak interactions and particle decays
Cosmological Baryon-Number Generation in Grand Unified Models
The Mathematica Book (3rd ed.)991The Mathematica Book (3rd ed.) . Cambridge University Press, 1996. 1395 pp, ISBN: 0‐521‐58888‐X £35.00
Event shapes in deep inelastic lepton-hadron scattering
Stephen Wolfram
Weak effects inΣ0decay
Algebraic Properties of Cellular Automata
Computational Law, Symbolic Discourse, and the AI Constitution
A New Kind of Science: A 15-Year View
A Class of Models with the Potential to Represent Fundamental Physics
How do simple programs behave
Two- and three-point energy correlations in Hadronice + e ? annihilation
What We’ve built Is a computational language (and that’s very important!)
Hadronic Electrons?
Cosmology with very large gauge models
What is Computation? (How) Does Nature Compute?
Computer algebra
Complex Systems Theory 1
Computation Theory of Cellular Automata
Two-Dimensional Cellular Automata
A New Kind of Science
Black Hole Tech?
Computer Algebra
Cellular Automata and Condensed Matter Physics
New Directions in the Foundations of Mathematics (2002)
Is the Universe Like π or Ω?
Are All Fish the Same Shape If You Stretch Them? The Victorian Tale of On Growth and Form
Foreword
What Alan Turing Might Have Discovered
Computational Law, Symbolic Discourse, and the AI Constitution
A century of Turing
Erratum: Heavy-particle production by cosmic rays
Dropping In on Gottfried Leibniz
Some Modern Perspectives on the Quest for Ultimate Knowledge
The Road to Intrinsic Randomness
Is the Universe Random?
What is Computation? (How) Does Nature Compute?
What Is Ultimately Possible in Physics?
Remembering Richard Crandall (1947--2012)
Statistical Mechanics of Cellular Automata
Approaches to Complexity Engineering
Minimal Cellular Automaton Approximations to Continuum Systems
Cellular Automaton Fluids: Basic Theory
Cellular Automata
Computers in Science and Mathematics
Geometry of Binomial Coefficients
Twenty Problems in the Theory of Cellular Automata
Cryptography with Cellular Automata
Complex Systems Theory
Cellular Automaton Supercomputing
Tables of Cellular Automaton Properties
Universality and Complexity in Cellular Automata
Undecidability and Intractability in Theoretical Physics
Origins of Randomness in Physical Systems
Thermodynamics and Hydrodynamics of Cellular Automata
Random Sequence Generation by Cellular Automata
A System for Doing Mathematics by Computer.
Mathematica
Logic, Explainability and the Future of Understanding
A Class of Models with the Potential to Represent Fundamental Physics
The Future of Computation
Are All Fish the Same Shape If You Stretch Them? The Victorian Tale of On Growth and Form
Undecidability and Intractability in Theoretical Physics
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Other Resources

• en.wikipedia.org
• www.stephenwolfram.com

Schools

University of Illinois Urbana-Champaign

Public research university in Urbana and Champaign, Illinois, United States

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California Institute of Technology

Private research university located in Pasadena, California

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University of Oxford

Collegiate research university in Oxford, England

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Notable Works

• A New Kind of Science

Influence Rankings by Discipline