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Dr. Levi and his collaborators published the article of Quantum fluctuations in small lasers, Phys. Rev. Lett. 102, 053902 (1-4) (2009).
In this talk, he started from basic and led audience into this specific topic. The talk was very focused on the topic. I wish many of you were there.
Quotes:
“There is no perfect solar model.”
“standard model is good, but not perfect.”
Selected References
1. Basu S, Dappen W, Nayfonov A. Helioseismic analysis of the hydrogen partition function in the solar interior. Astrophys J 1999;518(2):985-93.
2. Christensendalsgaard J, Dappen W. Solar oscillations and the equation of state. Astronomy and Astrophysics Review 1992;4(3):267-361.
3. Dappen W, Mihalas D, Hummer DG, Mihalas BW. The equation of state for stellar envelopes .3. thermodynamic quantities. Astrophys J 1988;332(1):261,&.
4. Elliott JR, Kosovichev AG. The adiabatic exponent in the solar core. Astrophys J 1998;500(2):L199-202.
5. Gough DO, Kosovichev AG, Toomre J, Anderson E, Antia HM, Basu S, Chaboyer B, Chitre SM, ChristensenDalsgaard J, Dziembowski WA, EffDarwich A, Elliott JR, Giles PM, Goode PR, Guzik JA, Harvey JW, Hill F, Leibacher JW, Monteiro MJPFG, Richard O, Sekii T, Shibahashi T, Takata M, Thompson MJ, Vauclair S, Vorontsov SV. The seismic structure of the sun. Science 1996;272(5266):1296-300.
6. Hummer DG, Mihalas D. The equation of state for stellar envelopes .1. an occupation probability formalism for the truncation of internal partition-functions. Astrophys J 1988;331(2):794-814.
7. Mihalas D, Dappen W, Hummer DG. The equation of state for stellar envelopes .2. algorithm and selected results. Astrophys J 1988;331(2):815-25.
Selected References
1. Albert FJ, Katine JA, Buhrman RA, Ralph DC. Spin-polarized current switching of a co thin film nanomagnet. Appl Phys Lett 2000;77(23):3809-11.
2. Bilzer C, Devolder T, Kim JV, Counil G, Chappert C, Cardoso S, Freitas PP. Study of the dynamic magnetic properties of soft CoFeB films. J Appl Phys 2006;100(5).
3. Katine JA, Albert FJ, Buhrman RA, Myers EB, Ralph DC. Current-driven magnetization reversal and spin-wave excitations in Co/Cu/Co pillars. Phys Rev Lett 2000;84(14):3149-52.
4. Paluskar PV, Kohlhepp JT, Swagten HJM, Koopmans B. Co72Fe20B8: Structure, magnetism, and tunneling spin polarization. J Appl Phys 2006;99(8).
5. Parker JS, Watts SM, Ivanov PG, Xiong P. Spin polarization of CrO2 at and across an artificial barrier. Phys Rev Lett 2002;88(19).
Prof. Lewis from CalTech talked about his recent research progress in semiconductor photoelectrochemistry
References are as followed.
Brendan M. Kayes, Harry A. Atwater, and Nathan S. Lewis, “Comparison of the Device Physics Principles of Planar and Radial p-n Junction Nanorod Solar Cells”, J. Appl. Phys., 2005, 97(11), 114302.
Santiago D. Solares, Hongbin Yu, Lauren J. Webb, Nathan S. Lewis, James R. Heath, and William A. Goddard, III, “Chlorination-Methylation of the Hydrogen-Terminated Silicon(111) Surface Can Induce a Stacking Fault in the Presence of Etch Pits”, J. Am. Chem. Soc., 2006, 128(12), 3850.
Hossam Haick, Patrick T. Hurley, Allon I. Hochbaum, Peidong Yang, Nathan S. Lewis, “Electrical Characteristics and Chemical Stability of Non-Oxidized, Methyl-Terminated Silicon Nanowires”, J. Am. Chem. Soc., 2006, 128(28), 8990.
For all of his publications, please refer his page.
Dr. Lu is the director of Laboratory of Brain ProcessES (LOBES) at the University of Southern California.
The second part of his presentation was about “applications of fMRI in understanding the neural mechanisms of attention”. His publications can be found at http://lobes.usc.edu/articles.htm, including full-text access to most reference he cited in this talk.
The best on-line abstracts & indexes to access articles in this fields are
Dr. Heijnsbergen, editor of PRL, came to USC and gave a presentation to help USC physics researchers and students understand in-depth of publishing issues within PRL.
Dr. Heijnsbergen began his seminar by collecting questions from audience. Prof. Johnson and many were very interested to know current acceptance rate of PRL, especially the number for domestic researchers. The other biggest concern from audience was the on-line submission system of PRL, which is not user-friendly according to some users’ experience.
During the presentation, Dr. Heijnsbergen gave different statistical information to USC users, which answered the question 1. It showed that the acceptance rate for domestic researchers has not changed much, while due to faster research growth of other regions, especially researchers from Pacific Rim have been sumbitting a lot. User also questioned how PRL keep itself as pinnacle in the field, if there are more and more articles published. Dr. Heijnsbergen admitted that it was not easy for anyone. To help users know more about peer-review process of PRL, he then explained it to audience step by step, which was my first time to go through with an insider.
Overall it was a very informative presentation. As Dr. Heijnsbergen hoped that it can “culminate in a lively debate about the imminent changes in the landscape of scientific publishing”, I think he did it.
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Some background information:
[1] K. Khodjasteh and D.A. Lidar, “Fault-Tolerant Quantum Dynamical Decoupling”, Phys. Rev. Lett. 95, 180501 (2005).
[2] K. Khodjasteh and D.A. Lidar, “Performance of Deterministic Dynamical Decoupling Schemes: Concatenated and Periodic Pulse Sequences”, Phys. Rev. A 75, 062310 (2007).
[3] K. Khodjasteh and D.A. Lidar, “Rigorous Bounds on the Performance of a Hybrid Dynamical Decoupling-Quantum Computing Scheme”, Phys. Rev. A 78, 012355 (2008).
Dr. Yap gave a wonderful talk of nanotubes in both carbon and non-carbon aspects. I personally enjoyed the talk very much, which started with introducing every individual research field, and then discussed the topic in-depth, particularly “vertically-aligned carbon nanotubes (CNTs), boron nitride nanotubes (BNNTs), ZnO nanotubes (ZnO NTs), and Si nanotubes (SiNTs)”.
If you’d like to know more about Dr. Yap’s research, please visit his research group.
The talk covers almost all research fields Dr. Yap has been working on, so his publication page is the best resource for afterwards learning. Here is Dr. Yap’s publication work page.
Dr. Young has already put his talk on-line.
To learn more about Monte Carlo method, please check out books at the USC Libraries. If you search ““Monte Carlo method.” as subject within HOMER, you will search found 161 titles. Some recent titles are
| QA298.D56 2008 | 2008 |
| Monte Carlo methods for applied scientists |
| QA298.R8 2008 | 2008 |
| Simulation and the monte carlo method 2nd ed. / Reuven Y. Rubinstein, Dirk P. Kroese. |
| QH323.5.M353 2007 | 2007 |
| Randomization, bootstrap and Monte Carlo methods in biology 3rd ed. |
| QD462.6.M66A38 2007 | 2007 |
| Advances in quantum Monte Carlo |
| QA298.D34 2007 | 2007 |
| Simulation and Monte Carlo : with applications in finance and MCMC |
| QA279.5.G36 2006 | 2006 |
| Markov chain Monte Carlo : stochastic simulation for Bayesian inference 2nd ed. / Dani Gamerman, Hedibert F. Lopes. |
| QC174.85.M64P73 2006 | 2006 |
| A practical guide to kinetic Monte Carlo simulations and classical molecular dynamics simulations : an example book |
| QA279.5.M59 2005 | 2005 |
| Markov chain Monte Carlo : innovations and applications |
Meanwhile, if you find new published books in this subject that are not included in the S&E library, please let me know. I’d be happy to order and buy them.
Thanks!
References
1. Fan ZY, Chang PC, Lu JG, Walter EC, Penner RM, Lin CH, Lee HP. Photoluminescence and polarized photodetection of single ZnO nanowires. Appl Phys Lett 2004 DEC 20;85(25):6128-30.
2. Fan Z, Ho JC, Jacobson ZA, Razavi H, Javey A. Large-scale, heterogeneous integration of nanowire arrays for image sensor circuitry. Proc Natl Acad Sci U S A 2008 AUG 12;105(32):11066-70.
3. Fan Z, Ho JC, Jacobson ZA, Yerushalmi R, Alley RL, Razavi H, Javey A. Wafer-scale assembly of highly ordered semiconductor nanowire arrays by contact printing. Nano Letters 2008 JAN;8(1):20-5.
