Presentations
and publications
Journal publications (vdW)
AFOSR MURI F49620-03-1-0420, “Nanoprobe Tools for
Molecular Spectroscopy and Control”.
1.
C. Qin, A. B. Kozyrev, A. Karbassi, and D. W. van der Weide,
“Microfabricated V-band Left-Handed Transmission Lines,” Metamaterials
(in press).
2.
H.-G. von Ribbeck, M. Brehm, D. W. van der Weide, S. Winnerl, O. Drachenko, M.
Helm, and F. Keilmann, “Spectroscopic THz near-field microscope,” Optics
Express, vol. 16, issue 5, pp. 3430-3438, 2008.
3.
A. B. Kozyrev and D. W. van der Weide, “Trains of Envelope Solitons in
Nonlinear Left-Handed Transmission Line Media,” Applied Physics Letters,
vol. 91, pp. 254111-3, 2007.
4.
A. B. Kozyrev, C. Qin, I. V. Shadrivov, Yu. S. Kivshar, I. L. Chuang and
D. W. van der Weide, “Wave scattering and splitting by magnetic metamaterials,”,
Optics Express, vol. 15, no. 18, pp. 11714-11722, 2007.
5.
J. Grade, P. Haydon, and D. W. van der Weide, “Electronic terahertz
antennas and probes for spectroscopic detection and diagnostics,” Proceedings
of the IEEE, vol. 95, pp. 1583-1591, 2007.
6.
Ho, S. J., Choi, M. K., and van der Weide, D. W.. A robust parameter
extraction method for HBT small-signal equivalent circuit. Microwave and
Optical Technology Letters, 49(8), 1845-1848, 2007.
7.
Y. Wang, A. D. Bettermann, and D. W. van der Weide, “Process for scanning
near-field microwave microscope probes with integrated ultratall coaxial tips,”
Journal of Vacuum Science & Technology B: Microelectronics and Nanometer
Structures, vol. 25, pp. 813-816, 2007.
8.
Hongjoon Kim, Alexander B. Kozyrev, Abdolreza Karbassi, and D.W. van der
Weide, “Compact left-handed transmission line as a linear phase-voltage
modulator and efficient harmonic generator,” IEEE Transactions on Microwave
Theory and Techniques 55(3), 571-578, 2007.
9.
V. Joshkin, M. Lagally, and D.W. van der Weide, “Double layer based
electronic nanodevices fabricated on silicon nanoneedles,” Journal of Applied
Physics, vol. 100, pp. 084329, 2006. (also cited in Virtual Journal of
Nanoscale Science & Technology, 2006.)
10.
Hongjoon Kim, Sung-Jin Ho, Min-Ki Choi, Alexander B. Kozyrev, and D.W.
van der Weide, “Combined Left- and Right- Handed Tunable Transmission Lines With
Tunable Passband and 0° Phase Shift,” IEEE Transactions on Microwave Theory
and Techniques, vol. 54, pp. 4178-4184, 2006.
11.
Alexander B. Kozyrev, Hongjoon Kim and D.W. van der Weide, “Parametric
amplification in left-handed transmission line media,” Applied Physics
Letters, vol. 88, pp. 264101, 2006.
12.
A. Karbassi, C. A. Paulson, A. B. Kozyrev, M. Banerjee, Y. Wang, and D.
W. van der Weide, “Quadraxial probe for high resolution near-field scanning RF/microwave
microscopy,” Applied Physics Letters, vol. 89, pp. 153113, 2006. (also
cited in Virtual Journal of Nanoscale Science & Technology, 2006.)
13.
A. B. Kozyrev and D.W. van der Weide, “Reply to the Comment on
“Explanation of the Inverse Doppler Effect Observed in Nonlinear Transmission
Lines”,” Physical Review Letters, vol. 96, pp. 069403, 2006.
14.
M. K. Choi, M. Zhao, S. C. Hagness, and D. W. van der Weide, “Compact
mixer-based 1-12 GHz reflectometer,” IEEE Microwave and Wireless Components
Letters, vol. 15, no. 11, pp. 781-783, Nov. 2005.
15. Albert
Schliesser, Markus Brehm, Fritz Keilmann, and D.W. van der Weide,
“Frequency-comb infrared spectrometer for rapid, remote chemical sensing,”
Optics Express, vol. 13, no. 22 , 9029-9038, October 31, 2005.
16.
Y. Wang and D.W. van der Weide, “Microfabrication and Application of
High-Aspect-Ratio Silicon Tips” Journal of Vacuum Science & Technology B,
vol. 23, pp. 1582-1584, 2005.
17.
H. J. Kim, A. B. Kozyrev, A. Karbassi, and D.W. van der Weide, “Linear Tunable
Phase Shifter Using a Left-Handed Transmission Line,” IEEE Microwave and
Wireless Component Letters, vol. 15, pp. 366-68, 2005.
18.
K. O. Sun, H. J. Kim, and D.W. van der Weide, “A scalable reflection type
phase shifter with large phase variation,” IEEE Microwave and Wireless
Components Letters, vol. 15, 2005.
19.
A. B. Kozyrev, H. J. Kim, A. Karbassi, and D.W. van der Weide, “Wave Propagation
in Nonlinear Left-Handed Transmission Line Media,” Applied Physics Letters,
vol. 87, pp. 121109-11, 2005.
20.
K. O. Sun, C. C. Yen, and D.W. van der Weide, “A size reduced
reflection-mode phase shifter,” Microwave and Optical Technology Letters,
vol. 47, 2005.
21.
K. O. Sun, M. K. Choi, and D.W. van der Weide, “A PIN diode controlled
variable attenuator using a 0-dB branch-line coupler,” IEEE Microwave and
Wireless Components Letters, vol. 15, pp. 440-42, 2005.
22.
Alexander B. Kozyrev and Daniel W. van der Weide, “Explanation of the inverse
Doppler effect observed in nonlinear transmission lines,” Physical Review
Letters 94 203902, 2005.
23.
A. B. Kozyrev and D.W. van der Weide, “Nonlinear Wave Propagation Phenomena in
Left-Handed Transmission Line Media,” IEEE Transactions on Microwave Theory
and Techniques vol. 53, pp. 238-45, 2005.
24.
S. Bhattacharjee, J. H. Booske, C. L. Kory, D.W. van der Weide, S.
Limbach, M. Lopez, R. M. Gilgenbach, S. Gallagher, A. Stevens, and M. Genack,
“Folded Waveguide Traveling Wave Tube Sources for THz Radiation,” IEEE
Transactions on Plasma Science, vol. 32, pp. 1002-1014, 2004.
25. Houck, Labaziewicz, Chan, Folk, and
Chuang, “Kondo effect in electromigrated gold break junctions,” Nano Letters,
vol 5, no 9, p1685, 2005.
26.
Brock, Houck, and Chuang, “Focusing inside negative index materials,” Applied
Phys. Lett., v85, no 13, p2472, 2004.
Journal publications (Blick)
1.‘Electron
Amplification in Membranes with Nano-Pillars’, H. Qin, H.-S. Kim, and R.H.
Blick, Nanotechnology 19, 095504 (2008).
arXiv:0708.2470
2.
‘Shock Waves in Nanomechanical Resonators’, F.W. Beil, A. Wixforth,
M. Bichler, W. Wegscheider, D. Schuh, R.H. Blick, Physical Review Letters
100, 026801 (2008).
arXiv:0708.1799;
this article has been selected by the Editors of Physical Review Letters as a
Suggested Article 
and
by the Virtual Journal of Nanoscale Science & Technology for the January 28,
2008 issue; news blip in Nature Nanotechnology (2008); also see: News&Views
article on this work by C.H. Mielke and A.V. Balatsky in Nature Nanotechnology
3, 129 (2008).
3.
‘Direct Mechanical Mixing in a Nanomechanical Diode’, H.-S. Kim,
H. Qin, M.S. Westphall, L.M. Smith, and R.H. Blick, Applied Physics Letters
91, 143101(2007); cover article
arXiv:0709.1894;
has been selected for the October 15, 2007 issue of Virtual Journal of Nanoscale
Science & Technology; also see Research Highlights
of Nature Nanotechnology by Adarsh Sandhu, published online October-12, 2007.
4.
‘A Nano-Mechanical Computer – New Avenues to Computing’, Robert
H. Blick, Hua Qin, Hyun-Seok Kim, and Robert Marsland, New Journal of Physics
9, 241 (2007); also see BBC-press release:
http://news.bbc.co.uk/2/hi/technology/6912023.stm.
5.
‘Field Emission from a Nanomechanical Pillar
for Display Applications’, Hyun-Seok Kim, Hua Qin, Lloyd M. Smith, Michael
Westphall, and Robert H. Blick, Nanotechnology 18, 065201 (2007).
6.
‘Detection of Coherent Acoustical Oscillations in a Nanomechanical
Resonator’, F.W. Beil, R.H. Blick, A. Wixforth, W. Wegscheider, M. Bichler,
Applied Physics Letters 90, 043101 (2007); has been selected for
the February 5, 2007 issue of Virtual Journal of Nanoscale Science & Technology,
for the February 2007 issue of Virtual Journal of Quantum Information, and for
the February 2007 issue of Virtual Journal of Ultrafast Science.
7.
‘Magnetotransport through a two dimensional electron gas in a
tubular geometry’, N. Shaji, H.Qin, L.J. Klein, C. Deneke, O.G. Schmidt,
and R.H. Blick, Applied Physics Letters 90,
042101 (2007); has been selected for the February 5, 2007 issue of Virtual
Journal of Nanoscale Science & Technology.
8.
‘Observation of single defect relaxation in a freely suspended
nano-resonator’, F.W. Beil, R.H. Blick, A. Wixforth, W. Wegscheider, D. Schuh,
M. Bichler, Europhysics Letters 76, 1207 (2006).
9.
‘Formation of Micro-Tubes from strained SiGe-heterostructures’, H.
Qin, N.Shaji, N.E. Merrill, H.S. Kim, R.C. Toonen, R.H. Blick, D. Savage, M.G.
Lagally, and G. Celler, New Journal of Physics 7, 241 (2005).
Selected Presentations
