Sign in
Author
|
Conference
|
Journal
|
Organization
|
Year
|
DOI
Look for results that meet for the following criteria:
since
equal to
before
between
and
Search in all fields of study
Limit my searches in the following fields of study
Agriculture Science
Arts & Humanities
Biology
Chemistry
Computer Science
Economics & Business
Engineering
Environmental Sciences
Geosciences
Material Science
Mathematics
Medicine
Physics
Social Science
Multidisciplinary
Keywords
(7)
fdtd method
Finite Difference Time Domain
Photonic Crystal
Terahertz
Two Dimensions
Wave Propagation
Plane Wave Expansion
Subscribe
Academic
Publications
Compact terahertz wave beam splitter based on self-collimating photonic crystals
Compact terahertz wave beam splitter based on self-collimating photonic crystals,10.1109/EMEIT.2011.6024051,Zhenhai Wu,Kang Xie,Ping Jiang,Jianchen Wa
Edit
Compact terahertz wave beam splitter based on self-collimating photonic crystals
BibTex
|
RIS
|
RefWorks
Download
Zhenhai Wu
,
Kang Xie
,
Ping Jiang
,
Jianchen Wan
In this paper, a compact beam splitter is proposed for
terahertz
(THz) systems based on the self-collimation effect in two-dimension al photonic crystals (PCs). The splitter has a very compact size of 908x908fim2. The parameters of the splitter are optimized by using the
plane wave expansion
(PWE) method. The equal-frequency contours (EFCs) and gap map are given to analyze the properties of the splitter. By using the finite-difference time-domain (FDTD) method, the field distribution of the THz
wave propagation
in the structure is simulated and the normalized transmitted powers versus various radii of the air holes of the splitting region are calculated. The impact of incident angles on the transmitted power is also studied with the FDTD method.
Conference:
International Conference on Electronic and Mechanical Engineering and Information Technology - EMEIT
, 2011
DOI:
10.1109/EMEIT.2011.6024051
Cumulative
Annual
View Publication
The following links allow you to view full publications. These links are maintained by other sources not affiliated with Microsoft Academic Search.
(
ieeexplore.ieee.org
)
(
ieeexplore.ieee.org
)
References
(12)
Applications of terahertz (THz) technology to medical imaging
(
Citations: 24
)
Don D. Arnone
,
Craig M. Ciesla
,
Alessandra Corchia
,
S. Egusa
,
M. Pepper
,
J. Martyn Chamberlain
,
C. Bezant
,
E. H. Linfield
,
R. Clothier
,
N. Khammo
Conference:
Storage and Retrieval for Image and Video Databases
, vol. 3828, pp. 209-219, 1999
Chemical sensing and imaging with pulsed terahertz radiation
(
Citations: 3
)
Markus Walther
,
Bernd M. Fischer
,
Alex Ortner
,
Andreas Bitzer
,
Andreas Thoman
,
Hanspeter Helm
Journal:
Analytical and Bioanalytical Chemistry - ANAL BIOANAL CHEM
, vol. 397, no. 3, pp. 1009-1017, 2010
Terahertz free space communications demonstration with quantum cascade laser and quantum well photodetector
(
Citations: 1
)
P. D. Grant
,
S. R. Laframboise
,
R. Dudek
,
M. Graf
,
A. Bezinger
,
H. C. Liu
Journal:
Electronics Letters - ELECTRON LETT
, vol. 45, no. 18, 2009
Terahertz space applications and technology
(
Citations: 1
)
Peter de Maagt
,
J. Chariton
Conference:
Microwave, MTT-S International Symposium - MTT
, 2005
Photonic crystal light deflection devices using the superprism effect
(
Citations: 39
)
T. Baba
,
M. Nakamura
Journal:
IEEE Journal of Quantum Electronics - IEEE J QUANTUM ELECTRON
, vol. 38, no. 7, pp. 909-914, 2002