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Optics Communications

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Optics Communications
TitleOptics Communications
AbbreviationOpt. Commun.
DisciplineOptics, Photonics
EditorJesper Mørk
PublisherElsevier
CountryNetherlands
History1970–present
FrequencyBiweekly
OpenaccessHybrid
Impact2.125
Impact-year2022
ISSN0030-4018
EISSN1873-0310
Websitehttps://www.journals.elsevier.com/optics-communications
CODENOPCOB8

Optics Communications. It is a peer-reviewed scientific journal covering all aspects of optics and photonics, publishing original contributions on both theoretical and experimental research. Established in 1970, it is published by Elsevier and serves as a key forum for rapid dissemination of results in the field. The journal's scope encompasses fundamental research, technological innovations, and applications across a broad spectrum of optical science.

Overview

The journal operates under the editorial leadership of figures such as Jesper Mørk and maintains a rigorous peer-review process to ensure scientific quality. It is indexed in major databases including Science Citation Index and Scopus, contributing to its recognition within the scientific community. Articles published span from foundational studies in wave propagation to cutting-edge reports on quantum optics, making it a comprehensive resource. The publication frequency supports the fast-paced nature of research in areas like nonlinear optics and integrated photonics.

Key research areas

Primary foci include laser physics, where work on novel laser sources and amplifier designs is frequently featured. Research in fiber optics explores advancements in optical fiber technology for telecommunications and sensing, often intersecting with studies on photonic crystal fibers. The journal also emphasizes nanophotonics and metamaterials, publishing on light manipulation at sub-wavelength scales. Significant attention is given to quantum information processing and quantum cryptography, linking optical techniques to foundational quantum mechanics.

Technological applications

Published research directly informs technologies in optical communications, including wavelength-division multiplexing systems and components for the Internet backbone. Work on optical sensors drives innovations in biomedical imaging, environmental monitoring, and industrial metrology. Advances in laser machining and optical trapping, crucial for manufacturing and biophysics, are regularly reported. Furthermore, developments in display technology and photovoltaic systems stem from applied studies on light-emitting diodes and light-matter interaction.

Major experimental methods

Common techniques include interferometry, utilized in setups like the Mach–Zehnder interferometer for precise phase measurement. Spectroscopy methods, such as Raman spectroscopy and absorption spectroscopy, are standard for material analysis. The journal features extensive use of ultrafast laser systems from companies like Coherent, Inc. for studying femtosecond phenomena. Advanced imaging approaches, including super-resolution microscopy and digital holography, are also prominent for breaking the diffraction limit.

Theoretical foundations

Theoretical work often employs Maxwell's equations and solutions derived from electromagnetic theory to model light behavior. Computational methods like finite-difference time-domain (FDTD) and beam propagation method (BPM) simulations are standard for designing photonic devices. Studies in quantum optics rely heavily on the formalism of quantum electrodynamics and the work of pioneers like Roy J. Glauber. Nonlinear phenomena are described using frameworks such as the nonlinear Schrödinger equation, foundational to understanding soliton propagation in fibers.

Historical development

The journal was launched during a period of rapid growth in laser science following the invention of the laser by Theodore H. Maiman. Its establishment paralleled major conferences like the CLEO (conference) and the rise of institutions like the Optical Society of America. Over decades, it has chronicled pivotal shifts from geometrical optics to wave optics and the emergence of photonics as a discipline. It has documented the evolution from basic optical components to complex systems enabling the Internet and explorations in quantum computing.

Category:Elsevier academic journals Category:Optics journals Category:English-language journals Category:Publications established in 1970