Validity of black hole complementarity in the BTZ black hole

Based on the gedanken experiment for black hole complementarity in the Schwarzschild black hole, we calculate the energy required to duplicate information in the BTZ black hole under the assumption of absorbing boundary condition and its dual solution of the black string, respectively, in order to justify the validity of the no-cloning theorem in quantum mechanics. For the BTZ black hole, the required energy for the duplication of information can be made fairly small, whereas for the black string it exceeds the total mass of the black string, although they are related to each other under the dual transformation. So, the duplication of information might be possible in the BTZ black hole in contrast to the case of the black string, so that the no-cloning theorem could be violated for the former case. To save the duplication of information for the BTZ black hole, we perform an improved gedanken experiment by using the local thermodynamic quantities near the horizon rather than those defined at infinity, and show that the no-cloning theorem could be made valid even in the BTZ black hole. We also discuss how this local treatment for the no-cloning theorem can be applied to the black string as well as the Schwarzschild black hole innocuously.Comment: 14 pages, 1 figure, version to appear in PL

Josephson (001) tilt grain boundary junctions of high temperature superconductors

We calculate the critical current $I_c$ across in-plane (001) tilt grain boundary junctions of high temperature superconductors. We solve for the electronic states corresponding to the electron-doped cuprates, two slightly different hole-doped cuprates, and an extremely underdoped hole-doped cuprate in each half-space, and weakly connect the two half-spaces by either specular or random quasiparticle tunneling. We treat symmetric, straight, and fully asymmetric junctions with s-, extended-s-, or d$_{x^2-y^2}$-wave order parameters. For symmetric junctions with random grain boundary tunneling, our results are generally in agreement with the Sigrist-Rice form for ideal junctions that has been used to interpret ``phase-sensitive'' experiments consisting of such in-plane grain boundary junctions. For specular grain boundary tunneling across symmetric juncitons, our results depend upon the Fermi surface topology, but are usually rather consistent with the random facet model of Tsuei {\it et al.} [Phys. Rev. Lett. {\bf 73}, 593 (1994)]. Our results for asymmetric junctions of electron-doped cuparates are in agreement with the Sigrist-Rice form. However, ou resutls for asymmetric junctions of hole-doped cuprates show that the details of the Fermi surface topology and of the tunneling processes are both very important, so that the ``phase-sensitive'' experiments based upon the in-plane Josephson junctions are less definitive than has generally been thought.Comment: 13 pages, 10 figures, resubmitted to PR

Services Branding Strategies: Using Corporate Branding to Market Educational Institutions

Corporate Branding has been suggested as an appropriate branding strategy for branding services as opposed to service product branding (Dall’Olmo Riley and de Chernatony, 2000). As corporate branding takes into account the perspectives of various stakeholders associated with the organization, this concept then becomes a crucial strategy when branding and marketing educational institutions. This paper provides an important theoretical contribution to services marketing literature by providing conceptual applications of corporate branding to educational institutions. The paper also examines how different stakeholders including staff, students, admissions officers and other related faculty and parents can be integrated to enhance the branding of education. In addition to the theoretical contribution, managerial implications on using corporate branding are raised as part of future research issues

Corporate Social Responsbility in Business Courses: How Can Generation Y Learn?

This paper deals with the teaching of Corporate Social Responsibility (CSR) in Business courses to Generation Y Business students in Australian universities. Generation Y students embody particular characteristics that may seem paradoxical, such as placing an increased emphasis on an improved materialistic lifestyle alongside green marketing or climate change issues. Generation Ys also highly value a balanced work-leisure environment but are comfortable with living on high levels of debt and expenses. The question then emerges: what is the most effective method of educating Generation Y Business students about CSR? A three-fold approach is proposed: a foundation of life-long learning about the theory and principles of how one goes about making intrinsic decisions in life and business, incorporating concepts of CSR into Business units, and then applying these concepts in Business Internships

Partition Functions in Even Dimensional AdS via Quasinormal Mode Methods

In this note, we calculate the one-loop determinant for a massive scalar (with conformal dimension $\Delta$) in even-dimensional AdS$_{d+1}$ space, using the quasinormal mode method developed in arXiv:0908.2657 by Denef, Hartnoll, and Sachdev. Working first in two dimensions on the related Euclidean hyperbolic plane $H_2$, we find a series of zero modes for negative real values of $\Delta$ whose presence indicates a series of poles in the one-loop partition function $Z(\Delta)$ in the $\Delta$ complex plane; these poles contribute temperature-independent terms to the thermal AdS partition function computed in arXiv:0908.2657. Our results match those in a series of papers by Camporesi and Higuchi, as well as Gopakumar et.al. in arXiv:1103.3627 and Banerjee et.al. in arXiv:1005.3044. We additionally examine the meaning of these zero modes, finding that they Wick-rotate to quasinormal modes of the AdS$_2$ black hole. They are also interpretable as matrix elements of the discrete series representations of $SO(2,1)$ in the space of smooth functions on $S^1$. We generalize our results to general even dimensional AdS$_{2n}$, again finding a series of zero modes which are related to discrete series representations of $SO(2n,1)$, the motion group of $H_{2n}$.Comment: 27 pages; v2: minor updates and JHEP versio

Thermodynamic phase transition based on the non-singular temperature

The Hawking temperature for the Schwarzschild black hole is divergent when the mass of the black hole vanishes; however the corresponding geometry becomes the Minkowski spacetime whose intrinsic temperature is zero. In connection with this issue, we construct a non-singular temperature which follows the Hawking temperature for the large black hole while it vanishes when the black hole completely evaporated. In order for thermodynamic significances of this modified temperature, we calculate thermodynamic quantities and study phase transitions. It turns out that even the small black hole can be stable below a certain temperature, and the hot flat space is always metastable so that it decays into the stable small black hole or the stable large black hole.Comment: 12 pages, 5 figures, version to appear in PR