Publications of Wentao
Lu (½ÎÄèº)
42. Design and implementation
of silicon based optical nanostructures for integrated photonic circuit
applications using deep reactive ion etching (DRIE) technique
S. Selvarasah,
R. Banyal, B.D.F. Casse,
W.T. Lu, S. Sridhar, and M.R. Dokmeci
NSTI-Nanotech 2008 Conference Publication (2008), pdf.
41. Nano-optical
microlens with ultra-short focal length using
negative refraction
B.D.F. Casse, W.T. Lu, Y.J. Huang, and S. Sridhar
Appl. Phys. Lett. 93,
053111
(2008), pdf. Highlighted in Nature,
40. Nanowire waveguide made from extremely anisotropic metamaterials
Y.J. Huang, W.T. Lu, and S. Sridhar
Phys. Rev. A 77, 063836 (2008), pdf or arXiv: 0804.4445.
39. Nanoengineering of a negative-index binary-staircase lens for the optics
regime
B.D.F. Casse, R. Banyal, W.T. Lu, Y.J. Huang, S. Selvarasah, M. Dokmeci, and S. Sridhar
Appl. Phys. Lett. 92, 243122 (2008), pdf
or arXiv: 0806.0615.
Also selected in Virtual
Journal of Nanoscale Science & Technology,
38. Negative index metamaterials for superlenses
based on metal-dielectric Nanocomposites
L. Menon, W.T. Lu, A. L. Friedman, S. Bennett, D. Heiman, and S. Sridhar
Appl. Phys. Lett. 93, 123117 (2008), pdf.
37. Experimental realization
of a generalized superlens at the infrared
wavelengths
R.K. Banyal, B.D.F. Casse, W.T. Lu, Y.J. Huang, S. Selvarasah, M. Dokmeci, C. H. Perry, and S. Sridhar
Opt. Express, submitted (2008).
36. Superlens imaging theory for anisotropic nanostructured
metamaterials with broadband all-angle negative
refraction
W.T. Lu and S. Sridhar
Phys. Rev. B 77, 233101 (2008), pdf
or arXiv: 0710.4933.
Also selected in Virtual
Journal of Nanoscale Science & Technology,
35. Negative refraction in
photonic crystals
W.T. Lu, P. Vodo and S. Sridhar
Chapter 5 in: Physics of negative refraction and negative index materials, edited
by C. M. Krowne and Y. Zhang, Springer 2007.
34. Alternative approach
to all-angle negative refraction in two-dimensional photonic crystals
Y.J. Huang, W.T. Lu, and S. Sridhar
Phys. Rev. A 76, 013824 (2007), pdf
or cond-mat/0703733. Also selected in Virtual Journal of Nanoscale Science &
Technology,
33. A new mechanism for negative refraction and focusing using selective diffraction from surface corrugation
W.T. Lu, Y.J. Huang, P. Vodo, R.K. Banyal, C.H. Perry, and S. Sridhar
Optics Express 15, 9166 (2007), pdf or cond-mat/0702286.
32. Negative refraction and plano-concave lens focusing in one-dimensional photonic crystals
P. Vodo, W.T. Lu, Y. Huang, and S. Sridhar
Appl. Phys. Lett. 89, 084104 (2006), pdf
or cond-mat/0604283. Also selected in Virtual Journal of Nanoscale Science &
Technology,
31. Duality between quantum and classical dynamics for integrable billiards
W.T. Lu, W. Zeng,
and
Phys. Rev. E 73, 046201 (2006), pdf or nlin.SI/0601022.
30. Flat lens without optical axis: Theory of imaging
W.T. Lu and S. Sridhar
Optics Express 13, 10673 (2005), pdf or cond-mat/0501715.
29. Negative refraction and Imaging in photonic crystals
S. Sridhar, P.V. Parimi, W.T. Lu, P. Vodo, and J.S. Derov
Proceedings of SPIE 5955, 595505 (2005).
28. Slow microwaves in lefthanded materials
E. Di Gennaro, P.V. Parimi, W.T. Lu, S. Sridhar, J.S. Derov, and B. Turchinetz
Phys. Rev. B 72, 033110 (2005), pdf.
27. Focusing by plano-concave lens using negative refraction
P. Vodo, P.V. Parimi, W.T. Lu, and S. Sridhar
Appl. Phys. Lett. 86, 201108 (2005), pdf or cond-mat/0502595.
26. Soluble kagome Ising model in a magnetic field
W.T. Lu and F.Y. Wu
Phys. Rev. E 71, 046120 (2005), pdf or cond-mat/0409083 (2004).
25. Correlations among the Riemann zeros: Invariance, resurgence, prophecy and self-duality
W.T. Lu and S. Sridhar
arXiv: nlin.CD/0405058 (2004)
24. Microwave photonic crystal with tailor made negative refractive index
P. Vodo, P.V. Parimi, W.T. Lu, S. Sridhar, and R. Wing
Appl. Phys. Lett. 85, 1858 (2004), pdf.
23. Negative Refraction and Left-handed electromagnetism in
Microwave Photonic
P.V. Parimi, W.T. Lu, P. Vodo, J. Sokoloff, J.S. Derov, and S. Sridhar
Phys. Rev. Lett. 92, 127401 (2004), pdf or cond-mat/0306109
22. Refraction of electromagnetic energy for wave packets incident on a negative-index medium is always negative
W.T. Lu, J.B. Sokoloff, and S. Sridhar
Phys. Rev. E 69, 026604 (2004), pdf or cond-mat/0306043,
21. Imaging by a Flat Lens Using Negative Refraction
P.V. Parimi, W.T. Lu, P. Vodo, and S. Sridhar
Nature 426, 404 (2003), pdf.
20. Near field imaging by negative permittivity media
W.T. Lu and S. Sridhar
Microwave and Optical Technology Lett. 39, 282 (2003), pdf.
19. Fractal Weyl laws for chaotic open systems
W.T. Lu, S. Sridhar, and M. Zworski
Phys. Rev. Lett. 91, 154101 (2003), pdf or nlin.CD/0208019.
18. Generalized Fibonacci numbers and dimer statistics
W.T. Lu and F.Y. Wu
Mod. Phys. Lett. B 16, 1177 (2002), pdf or cond-mat/0212334.
17. Comment on 'Wave refraction in negative-index media: always positive and very inhomogeneous'
W.T. Lu, J.B. Sokoloff, and S. Sridhar
arXiv: cond-mat/0207689.
16. Sinai billiards, Ruelle zeta-functions and Ruelle resonances: microwave experiments
S. Sridhar and W.T. Lu
J. Stat. Phys. 108, 755 (2002), pdf or nlin.CD/0206031.
15. Close-packed dimers on nonorientable surfaces
W.T. Lu and F.Y. Wu
Phys. Lett. A 293, 235-246 (2002), pdf or cond-mat/0110035.
14. Quantum correlations and classical resonances in an open system
W.T. Lu, K. Pance, P. Pradhan, and S. Sridhar
Proc. of Nobel Symposium for "Quantum chaos Y2K", Physica Scripta T90, 238-245 (2001), pdf or nlin.CD/0010038.
13. Ising model on nonorientable surfaces: Exact solution for the Moebius strip and the Klein bottle
W.T. Lu and F.Y. Wu
Phys. Rev. E 63, 026107 (2001), pdf or cond-mat/0007325.
12. Density of the Fisher zeroes for the Ising model
W.T. Lu and F.Y. Wu
J. Stat. Phys. 102, 953 (2001), pdf or cond-mat/0001409.
11. Quantum fingerprints of the classical Pollicot-Ruelle resonances
K. Pance,
W. Lu and S. Sridhar
Phys. Rev. Lett. 85, 2737-2740 (2000), pdf or nlin.CD/0004006.
10. Microwave study of quantum n-disk scattering
W. Lu, L. Viola, K. Pance, M. Rose, and S. Sridhar
Phys. Rev. E 61, 3652-3663 (2000), pdf or cond-mat/9909237.
9. Dimer statistics on the Moebius strip and the Klein bottle
W.T. Lu and F.Y. Wu
Physics Letter A 259, 108-114 (1999), pdf or cond-mat/9906154.
8. Quantum resonances and decay of a chaotic repeller observed using microwaves
W. Lu, M. Rose, K. Pance and S. Sridhar
Phys. Rev. Lett. 82, 5233 (1999), pdf or chao-dyn/9902002.
7. On the rooted Tutte polynomial
F.Y. Wu, C. King and W.T. Lu
Ann. Inst. Fourier (
6. Partition function zeros of a self-dual Ising Model
W.T. Lu and F.Y. Wu
Physica A 258, 157-170 (1998), pdf or cond-mat/9805282.
5. On the duality relation for correlation functions of the Potts Model
W.T. Lu and F.Y. Wu
J. Phys. A 31, 2823-2836 (1998), pdf or cond-mat/9712045.
4. Correlation duality relation for the (Na, Nb) model
F.Y. Wu and W.T. Lu
Chinese J. Phys. 35, 768 (1997), pdf or cond-mat/9712111.
3. QCD sum rules for the 0++ three-gluon scalar glueball
W. Lu and J. Liu
High Energy Phys &
Nucl. Phys.
(
2. QCD sum rules for the 1-+ vector odd-glueball
W. Lu and J. Liu
Chinese Phys. Lett. 13, 340 (1996).
1. 1-+ vector odd-glueball and its QCD sum rules
W. Lu and J. Liu
J.