Colin Rourke (born 1 January 1943) is a British mathematician, who has published papers in PL topology, low-dimensional topology, differential topology, group theory, relativity and cosmology. He is an emeritus professor at the Mathematics Institute of the University of Warwick and a founding editor of the journals Geometry & Topology and Algebraic & Geometric Topology, published by Mathematical Sciences Publishers, where he is the vice chair of its board of directors.
Most of Rourke's early work was carried out in collaboration with Brian Sanderson. They solved a number of outstanding problems: the provision of normal bundles for the PL category (which they called "Block bundles"), the non-existence of normal microbundles (top and PL), and a geometric interpretation for all (generalized) homology theories (joint work with Sandro Buoncristiano, see bibliography).
From 1976-1981 Rourke was acting professor of pure mathematics at the Open University (on secondment from Warwick) where he masterminded the rewriting of the pure mathematics course.
In September 1986 Rourke and his graduate student, Eduardo Rêgo (later at University of Oporto), claimed to have solved the Poincaré Conjecture. Reaction by the topological community at the time was highly skeptical, and during a special seminar at University of California, Berkeley given by Rourke, a fatal error was found in the proof.
The part of the proof that was salvaged was a constructive characterization and enumeration of Heegaard diagrams for homotopy 3-spheres. A later-discovered algorithm of J. Hyam Rubinstein and Abigail Thompson identified when a homotopy 3-sphere was a topological 3-sphere. Together, the two algorithms provided an algorithm that would find a counterexample to the Poincaré Conjecture, if one existed.
Geometry & TopologyEdit
In 1996, dissatisfied with the rapidly rising fees charged by the major publishers of mathematical research journals, Rourke decided to start his own journal, and was ably assisted by Robion Kirby, John Jones and Brian Sanderson. That journal became Geometry & Topology. Under Rourke's leadership, GT has become a leading journal in its field while remaining one of the least expensive per page. GT was joined in 1998 by a proceedings and monographs series, Geometry & Topology Monographs, and in 2000 by a sister journal, Algebraic & Geometric Topology. Rourke wrote the software and fully managed these publications until around 2005 when he cofounded Mathematical Sciences Publishers (with Rob Kirby) to take over the running). Mathematical Sciences Publishers has now grown to become a formidable force in academic publishing.
In 2000 Rourke started taking an interest in cosmology and published his first substantial foray on the arXiv preprint server in 2003. For the past ten years he has collaborated with Robert MacKay, also of Warwick University, with papers on redshift, gamma-ray bursts and natural observer fields. He is currently working on a completely new paradigm for the universe, one that involves neither dark matter nor a Big Bang. This new paradigm is presented in "A new paradigm for the universe" (see bibliography).
The main idea is that the principal objects in the universe form a spectrum unified by the presence of a massive or hypermassive black hole. These objects are variously called quasars, active galaxies and spiral galaxies. The key to understanding their dynamics is angular momentum and the key tool is a proper formulation of "Mach's principle" using Sciama's ideas. This is added to standard general relativity in the form of hypothesized "inertial drag fields" which carry the forces that realize Mach's principle. This formulation solves the causal problems that occur in a naive formulation of the principle.
The new approach provides an explanation for the observed dynamics of spiral galaxies without needing dark matter and gives a framework that fits the observations of Halton Arp and others that show that quasars typically exhibit instrinsic redshift.
- Rourke, C. P.; Sanderson, B. J. (1972). Introduction to piecewise-linear topology. Ergebnisse der Mathematik und ihrer Grenzgebiete, Band 69. Springer-Verlag.
- Buoncristiano, S.; Rourke, C. P.; Sanderson, B. J (1976). A geometric approach to homology theory. London Mathematical Society Lecture Note Series, No. 18. Cambridge University Press.
- Rourke, Colin (2017), A new paradigm for the universe, https://arxiv.org/abs/astro-ph/0311033, http://msp.warwick.ac.uk/~cpr/paradigm/master.pdf, Amazon (Kindle and paperback versions)
- "Board of Directors". Mathematical Sciences Publishers. Retrieved 8 October 2015.
- Rourke, C.P.; Sanderson, B.J. "Block Bundles I, II and III". Annals of Mathematics. 87 (1968): 1–28, 255–277, 431–483. doi:10.2307/1970591.
- Rourke, C.P.; Sanderson, B.J. "An embedding without a normal microbundle". Invent Math. 3 (1967): 293–299.
- "ICM Plenary and Invited Speakers since 1897". International Mathematical Union. Retrieved 11 October 2015.
- Rourke, C. P. (1971). "Block structures in geometric and algebraic topology". Actes du Congrès International des Mathématiciens (Nice, 1970). Vol. Tome 2. Paris: Gauthier-Villars. pp. 127–32.
- Gleick, James (30 September 1986). "One of Math's Major Problems Reported Solved". The New York Times.
- Szpiro, George G. (2007). Poincaré's Prize. Dutton. pp. 177–79. ISBN 978-0-525-95024-0.
- O'Shea, Donal (2007). The Poincaré Conjecture. Walker Books. pp. 179–80. ISBN 978-0-8027-1532-6.
- Rêgo, Eduardo; Rourke, Colin (1988). "Heegaard diagrams and homotopy 3-spheres". Topology. 27 (2): 137–43. doi:10.1016/0040-9383(88)90033-x.
- The proof later of the Poincaré Conjecture simplified this to "always yes".
- Rourke, Colin (1997). "Algorithms to disprove the Poincaré conjecture". Turkish Journal of Mathematics. 21 (1): 99–110.
- Dunwoody, M. J. "A Proof of the Poincaré Conjecture ?" (PDF). Retrieved 9 October 2015.
- "Math whiz tackles old problem with new twist". Sarasota Herald-Tribune. 26 April 2002. p. 6A.
- Szpiro, George G. (2007). Poincaré's Prize. Dutton. pp. 181–82. ISBN 978-0-525-95024-0.
- O'Shea, Donal (2007). The Poincaré Conjecture. Walker Books. p. 187. ISBN 978-0-8027-1532-6.