Skip to search form
Skip to main content
Skip to account menu
Semantic Scholar
Semantic Scholar's Logo
Search 227,201,376 papers from all fields of science
Search
Sign In
Create Free Account
Cladding (fiber optics)
Known as:
Cladding
, Cladding (optical fiber)
Cladding is one or more layers of materials of lower refractive index, in intimate contact with a core material of higher refractive index. The…
Expand
Wikipedia
(opens in a new tab)
Create Alert
Alert
Related topics
Related topics
15 relations
Core (optical fiber)
Federal Standard 1037C
Fiber-optic communication
Fiberscope
Expand
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
Highly Cited
2012
Highly Cited
2012
Chalcogenide Core Tellurite Cladding Composite Microstructured Fiber for Nonlinear Applications
C. Chaudhari
,
M. Liao
,
T. Suzuki
,
Y. Ohishi
Journal of Lightwave Technology
2012
Corpus ID: 45680174
We present detailed design of a highly nonlinear chalcogenide core tellurite cladding composite microstructured fiber and…
Expand
Highly Cited
2009
Highly Cited
2009
An Inline Core-Cladding Intermodal Interferometer Using a Photonic Crystal Fiber
W. Bock
,
T. Eftimov
,
P. Mikulic
,
Jiahua Chen
Journal of Lightwave Technology
2009
Corpus ID: 22469932
We propose a simple all-fiber structure based on intermodal interference between a core and a cladding mode of an endlessly…
Expand
Highly Cited
2007
Highly Cited
2007
Behavior and Failure Strength of Laminated Glass Beams
P. Foraboschi
2007
Corpus ID: 85507088
Despite the increased use of laminated glass (two monolithic layers of glass joined with an elastomeric interlayer—usually PVB—to…
Expand
Highly Cited
2007
Highly Cited
2007
Highly Birefringent Elliptical-Hole Photonic Crystal Fibers With Double Defect
Daru Chen
,
Linfang Shen
Journal of Lightwave Technology
2007
Corpus ID: 3093492
A novel elliptical-hole photonic crystal fiber (PCF) with double defect is theoretically investigated, and its high birefringence…
Expand
Highly Cited
2006
Highly Cited
2006
Thermally Activated Variable Attenuation of Long-Range Surface Plasmon-Polariton Waves
G. Gagnon
,
N. Lahoud
,
G. Mattiussi
,
P. Berini
Journal of Lightwave Technology
2006
Corpus ID: 34288476
A thermally activated variable attenuator for long-range (low-loss) surface plasmon-polariton (LRSPP) waves is discussed in this…
Expand
Highly Cited
1997
Highly Cited
1997
Selective quantum-well intermixing in GaAs-AlGaAs structures using impurity-free vacancy diffusion
B. Ooi
,
K. McIlvaney
,
+5 authors
J. Roberts
1997
Corpus ID: 52206305
Impurity-free vacancy disordering (IFVD) using SiO/sub 2/ and SrF/sub 2/ dielectric caps to induce selective quantum-well (QW…
Expand
Highly Cited
1997
Highly Cited
1997
“Plastic” lasers: Comparison of gain narrowing with a soluble semiconducting polymer in waveguides and microcavities
M. Díaz‐García
,
F. Hide
,
B. Schwartz
,
M. McGehee
,
M. Andersson
,
A. Heeger
1997
Corpus ID: 11650870
Gain narrowing and lasing from a soluble, highly photoluminescent conjugated polymer, poly(2-butyl, 5-(2′-ethyl-hexyl)-1,4…
Expand
Highly Cited
1996
Highly Cited
1996
Intrinsic Sol−Gel Clad Fiber-Optic Sensors with Time-Resolved Detection
C. A. Browne
,
D. Tarrant
,
M. Olteanu
,
and Joseph W. Mullens
,
E. Chronister
1996
Corpus ID: 55873748
Sol−gel clad fiber-optic waveguides are investigated as intrinsic distributed fiber-optic chemical sensors. The porous sol−gel…
Expand
Highly Cited
1993
Highly Cited
1993
Characterization of a Fiber-Optic Evanescent Wave Absorbance Sensor for Nonpolar Organic Compounds
J. Conzen
,
J. Bürck
,
H. Ache
1993
Corpus ID: 54760511
A fiber-optic evanescent field absorbance sensor (EFAS) is described, for which the sensing element consists of a commercially…
Expand
Highly Cited
1990
Highly Cited
1990
Reduction of wind induced motion utilizing a tuned sloshing damper
A. Kareem
1990
Corpus ID: 7830350
By clicking accept or continuing to use the site, you agree to the terms outlined in our
Privacy Policy
(opens in a new tab)
,
Terms of Service
(opens in a new tab)
, and
Dataset License
(opens in a new tab)
ACCEPT & CONTINUE