Represented Journal
Publications
1.
“Tuning micro-cavity resonant wavelength using a 2D photonic-crystal
slab”, Appl. Phys. Lett., Dec 2003.
2.
“3D Tungsten
Photonic
3.
“A 3D Photonic-Crystal Emitter For Thermal
Photovoltaic Generation” Appl. Phys. Lett. 83, 380, (2003).
4.
“Highly Emission
Light Emission at l=1.5 mm from a 3D Tungsten Photonic
Crystal”, Optics. Lett.,
28, 1683 (2003).
5.
“Experimental observation of photonic-crystal
emission near a photonic band-edge” Appl.
Phys. Lett., 83, 593 (2003).
6.
“Origin of
absorption enhancement in a three-dimensional photonic-crystal”, JOSA-B
20, 1538 (2003).
7.
“ Photonic Band Gap Effect in Layer-by-Layer
Metallic Photonic
8.
“Low loss, wide
angle Y-splitter at l=1.6mm wavelengths built with a two-dimensional
photonic-crystal”, Optics Letters, Vol. 27, 1400-1402 (2002).
9.
"Three-dimensional photonic band gaps in modified
simple cubic lattices", Phys. Rev. B 65, 205121 (2002).
10.
“All-metallic 3D
photonic crystals with a large photonic band-gap” Nature 417, 52-55 (2002).
11.
“Direct
measurement of quality factor in a 2D photonic crystal microcavity
at 1.55 mm wavelengths”, Optics Letters 26, 1903 (2001).
12.
“2D and 3D
Photonic Crystals Built with VLSI Tools", MRS Bulletin, Vol. 26, p.627, August 2001.
13.
“Micro-fabrication
and nano-fabrication of photonic crystals”, p.83,
Photonic
14.
“Quantitative
analysis of bending efficiency in photonic crystal waveguide bends at 1.55 mm wavelengths”, Optics Letters, Vol. 26, p.286-288
(2001).
15.
“A complete 3D
photonic band gap in a simple cubic structure”, J of Opt. Soc. Ame. B, Vol. 18, 32 (2001).
16.
“Three-dimensional
control of light in a 2D photonic crystal slab”, Nature 407,
p.983-986 (2000).
17.
“Experimental
demonstration of highly efficient waveguiding in a 2D
photonic crystal slab”, Optics Letters, vol. 25, 1297
(2000).
18.
“Enhancement and
Suppression of thermal emission by a 3D photonic crystal”, Phys. Rev. B 62 (Rapid
Communication), R2243 (2000).
19.
“A 3D optical photonic crystal”, IEEE
Journal of Lightwave Technology, Vol.17,
p.1944 (1999).
20.
“Waveguide bends
in 3D layer by layer photonic band gap”, Micro. and Optics
Tech. Lett.,
23, p.56 (1999).
21.
“
Photonic band gap micro-cavcities in three-dimensions”, Phys. Rev. B59, R15, 579 (1999).
22.
“A 3D photonic
crystal with a stop band from 1.35 to 1.95 mm”, Optics
Letters, 24, p. 49 (1999).
23.
“Experimental
demonstration of guiding and bending of electromagnetic waves in a photonic
crystal”, Science 282, p. 274
(1998).
24.
“A
three-dimensional photonic crystal operating at infrared wavelengths”, Nature
394, p. 251 (1998).
25.
“Direct
measurement of refractive-index dispersion using a time-delayed technique”, Review
of Scientific Instruments, V.69, 1472 (1998).
26.
“A highly
dispersive photonic band gap prism”, Optics Letters, Vol.21, p. 1771 (1996).
27.
“Time-resolved
carrier recombination dynamics of 1.3-1.8 mm broadband light
emitting diode structures”, J. Appl. Phys. Vol.
80, 6965 (1996).
28.
“Photonic band
gap quantum well and quantum box structures: a high-Q resonant cavity”, Appl. Phys. Letters, 68, 3233 (1996).
29.
“
Cyclotron resonance of 2D holes in
strained-layer GaAs/InGaAs/GaAs quantum well”, Appl. Phys. Lett. 67,
2170 (1995).
30.
“ A search for nodes
in the wavefunction of superconducting Y1Ba2Cu3O7-d thin films ”, p.39, Advances in Superconductivity VII,
Springer-Verlag Tokyo, Japan (1995).
31.
“ Distribution of
magnetic flux in high Tc grain boundary junctions
enclosing hexagonal and triangular areas”, Phys. Rev. B51 (Rapid Comm.), 12057
(1995).
32.
“Photonic bound states in two-dimensional
photonic crystals probed by coherent microwave transient spectroscopy”, JOSA-B,
vol.11, 2124 (1994).
33. “Symmetry of
superconducting order parameter in Y1Ba2Cu3O7-d epitaxial
films”, Phys. Rev. Lett., 72, 1084 (1994).