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Journal of Lightwave Technology : a Joint Ieee/osa Publication

The Journal of Lightwave Technology is a prestigious scientific journal jointly published by the Institute of Electrical and Electronics Engineers (IEEE) and the Optical Society of America (OSA). It focuses on advancements in the field of lightwave technology, covering topics such as optical fibers, lasers, photonic devices, and optical communication systems. The journal serves as a platform for researchers, engineers, and professionals to share their innovative research and developments in this rapidly evolving field.
Details
Abbr. J Lightwave Technol
Start 1983
End Continuing
Frequency Monthly <Jan. 1986- >
p-ISSN 0733-8724
e-ISSN 1558-2213
Country United States
Language English
Metrics
h-index / Ranks: 525 222
SJR / Ranks: 2259 1370
CiteScore / Ranks: 1607 9.50
JIF / Ranks: 1761 4.7
Recent Articles
1.
Blind Polarization Demultiplexing of Shaped QAM Signals Assisted by Temporal Correlations
Bajaj V, Van de Plas R, Wahls S
J Lightwave Technol . 2024 Apr; 42(2):560-571. PMID: 38586243
While probabilistic constellation shaping (PCS) enables rate and reach adaption with finer granularity [1], it imposes signal processing challenges at the receiver. Since the distribution of PCS-quadrature amplitude modulation (QAM)...
2.
Microwave device inspired by fiber-optic extrinsic Fabry-Perot interferometer: a novel ultra-sensitive sensing platform
Zhu C, Gerald 2nd R, Huang J
J Lightwave Technol . 2022 Apr; 38(24):6961-6966. PMID: 35431423
The fiber-optic extrinsic Fabry-Perot interferometer (EFPI) is one of the simplest sensing configurations and is widely used in various applications. Inspired by the EFPI, we report a novel and universal...
3.
Numerical Calculation of the Light Propagation in Tapered Optical Fibers for Optical Neural Interfaces
Mach-Batlle R, Pisanello M, Pisano F, De Vittorio M, Pisanello F, Ciraci C
J Lightwave Technol . 2022 Feb; 40(1):196-205. PMID: 35221462
As implantable optical systems recently enabled new approaches to study the brain with optical radiations, tapered optical fibers emerged as promising implantable waveguides to deliver and collect light from sub-cortical...
4.
Optofluidic Flow-Through Biosensor Sensitivity - Model and Experiment
Wright Jr J, Amin M, Meena G, Schmidt H, Hawkins A
J Lightwave Technol . 2021 Jun; 39(10):3330-3340. PMID: 34177078
We present a model and simulation for predicting the detected signal of a fluorescence-based optical biosensor built from optofluidic waveguides. Typical applications include flow experiments to determine pathogen concentrations in...
5.
Tunable mode control through myriad-mode fibers
Singh S, Labouesse S, Piestun R
J Lightwave Technol . 2021 May; 39(9):2961-2970. PMID: 33994658
Multimode fibers are attractive for imaging, communication, computation, and energy delivery. Unfortunately, intermodal and polarization coupling precludes direct control of the delivered mode composition. We present a technique to tailor...
6.
Effects of Post-Etch Microstructures on the Optical Transmittance of Silica Ridge Waveguides
Wright Jr J, Schmidt H, Hawkins A
J Lightwave Technol . 2021 Mar; 38(22):6280-6285. PMID: 33776196
Silica waveguides are often etched by reactive ion etch (RIE) processes. These processes can leave residual topography that can increase optical loss. We investigated the relation between optical loss and...
7.
Fabrication and characterization of femtosecond laser induced microwave frequency photonic fiber grating
Cheng B, Song Y, Hua L, Xiao H
J Lightwave Technol . 2020 Sep; 38(19):5286-5292. PMID: 32939105
We proposed and fabricated a microwave-frequency photonic fiber grating (MPFG) by femtosecond laser micromachining on optical fibers. Illuminated by low coherent light source, the MPFG can be interrogated using proposed...
8.
Physical Layer Cryptographic Key Generation by Exploiting PMD of an Optical Fiber Link
Zaman I, Lopez A, Al Faruque M, Boyraz O
J Lightwave Technol . 2019 Feb; 36(24):5903-5911. PMID: 30713365
We present a symmetric physical layer based secret key generation scheme for Point-to-Point Optical Link (PPOL) communication by exploiting Polarization Mode Dispersion (PMD) as a random and inimitable channel characteristic....
9.
Single-pixel phase-corrected fiber bundle endomicroscopy with lensless focussing capability
Gordon G, Joseph J, Bohndiek S, Wilkinson T
J Lightwave Technol . 2016 Jun; 33(16):3419-3425. PMID: 27279676
In this paper a novel single-pixel method for coherent imaging through an endoscopic fiber bundle is presented. The use of a single-pixel detector allows greater sensitivity over a wider range...
10.
Near-field Light Scattering Techniques for Measuring Nanoparticle-Surface Interaction Energies and Forces
Schein P, Ashcroft C, ODell D, Adam I, DiPaolo B, Sabharwal M, et al.
J Lightwave Technol . 2016 Feb; 33(16):3494-3502. PMID: 26855473
Nanoparticles are quickly becoming commonplace in many commercial and industrial products, ranging from cosmetics to pharmaceuticals to medical diagnostics. Predicting the stability of the engineered nanoparticles within these products remains...