# Paul S. Aspinwall

## Professor

## Details

** Exoflops in two dimensions
**

Journal of High Energy Physics
(2015)

** Rational curves and (0, 2)-deformations
**

Journal of Geometry and Physics
(2015)

** A McKay-Like Correspondence for (0,2)-Deformations
**

Advances in Theoretical and Mathematical Physics
(2014)

** Rational Curves and (0,2)-Deformations
**

Journal of Geometry and Physics
(2014)

** Exoflops in Two Dimensions
**

(2014)

** Categories of Massless D-Branes and del Pezzo Surfaces
**

JHEP
(2013)

** Quivers from Matrix Factorizations
**

Commun Math Phys
(2012)

** (0,2) Elephants
**

Journal of High Energy Physics
(2012)

** (0,2) elephants
**

Journal of High Energy Physics
(2012)

** Quivers from Matrix Factorizations
**

Communications in Mathematical Physics
(2012)

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String theory is hoped to provide a theory of all fundamental physics encompassing both

quantum mechanics and general relativity. String theories naturally live in a large number of

dimensions and so to make contact with the real world it is necessary to ``compactify'' the

extra dimensions on some small compact space. Understanding the physics of the real

world then becomes a problem very closely tied to understanding the geometry of the space

on which one has compactified. In particular, when one restricts one's attention to

``supersymmetric'' physics the subject of algebraic geometry becomes particularly important.

Of current interest is the notion of ``duality''. Here one obtains the same physics by

compactifying two different string theories in two different ways. Now one may use our limited understanding of one

picture to fill in the gaps in our limited knowledge of the second picture. This appears to be an extremely powerful

method of understanding a great deal of string theory.

Both mathematics and physics appear to benefit greatly from duality. In mathematics one finds hitherto unexpected

connections between the geometry of different spaces. ``Mirror symmetry'' was an example of this but many more

remain to be explored. On the physics side one hopes to obtain a better understanding of nonperturbative aspects

of the way string theory describes the real world.

**Education:**

Ph.D. - University of Oxford (UK)

B.A. - University of Oxford (UK)

** Some applications of commutative algebra to string theory
**

In Commutative Algebra, Expository Papers Dedicated to David Eisenbud on the Occasion of His 65th Birthday edited by . 2013; pp. 25-56. : .

** Some Applications of Commutative Algebra to String Theory
**

In Commutative Algebra, Expository Papers Dedicated to David Eisenbud on the Occasion of His 65th Birthday edited by . 2013; : .

** Elusive Worldsheet Instantons in Heterotic String Compactifications
**

In Proceedings of Symposia in Pure Mathematics edited by . 2012; pp. 33-52. : .

** Some Applications of Commutative Algebra to String Theory
**

In Commutative Algebra, Expository Papers Dedicated to David Eisenbud on the Occasion of His 65th Birthday edited by . ; : .

** D-Branes, Pi-Stability and Theta-Stability
**

In Snowbird Lectures on String Geometry edited by . 2006; : AMS.

** D-Branes on Calabi-Yau Manifolds
**

In Progress in String Theory, TASI 2003 Lecture Notes edited by . 2005; : World Scientific.

**2001**Langford Lecture, Duke

**1999**Alfred P. Sloan Fellowship, Alfred P. Sloan Foundadtion

**1999**Sloan Research Fellowship-Physics, Alfred P. Sloan Foundation

**1998**Invited Talk at ICM, ICM