1. Aizenman, M., and Lieb, E.H., “The Third Law of Thermodynamics and the Degeneracy of the Ground State for Lattice Systems]“, J. Stat. Phys., 24, 279–297, (1981). 2

2. Anderson, W., “Does the GSL Imply an Entropy Bound?”, in Pullin, J., ed., Matters of Gravity. American Physical Society Topical Group in Gravitation, (1999). This issue of the newsletter of the APS Topical Group on Gravitation is available online at http://arxiv.org/abs/gr-qc/9909022 (September, 1999), [Online Los Alamos Archive Preprint]: cited on 6 April 2001. 3

3. Ashtekar, A., Baez, J., Corichi, A., and Krasnov, K., “Quantum Geometry and Black Hole Entropy”, Phys. Rev. Lett., 80, 904–907, (1998). For a related online version see: A. Ashtekar, et al., “Quantum Geometry and Black Hole Entropy”, (October, 1997), [Online Los Alamos Archive Preprint]: cited on 6 April 2001, http://arxiv.org/abs/gr-qc/9710007. 5

4. Ashtekar, A., Beetle, C., Dreyer, O., Fairhurst, S., Krishnan, B., Lewandowski, J., and Wisniewski, J., “Generic Isolated Horizons and their Applications”, Phys. Rev. Lett., 85, 3564–3567, (2000). For a related online version see: A. Ashtekar, et al., “Generic Isolated Horizons and their Applications”, (June, 2000), [Online Los Alamos Archive Preprint]: cited on 6 April 2001, http://arxiv.org/abs/gr-qc/0006006. 2

5. Ashtekar, A., Beetle, C., and Fairhurst, S., “Isolated Horizons: A Generalization of Black Hole Mechanics”, Class. Quantum Grav., 16, L1–L7, (1999). For a related online version see: A. Ashtekar, et al., “Isolated Horizons: A Generalization of Black Hole Mechanics”, (December, 1998), [Online Los Alamos Archive Preprint]: cited on 6 April 2001, http://arxiv.org/abs/gr-qc/9812065. 2