Lasers, Light Sources and Sensors
A section of Photonics (ISSN 2304-6732).
Section Information
The recent evolution of the optical technology global scenario, such as the progress in optical modeling and numerical techniques, have allowed extraordinary advances, mainly over the past decade, in the field of Lasers, Light Sources and Sensors. The development of novel optical sources has paved the way for promising experimental and theoretical results, with direct applications in the field of material processing, industrial applications, biological material imaging, medical therapy, etc. This favorable technological background originated from the design/development of novel materials, components, devices, and systems based on different solutions in bulk, fiber, and integrated optics. As an example, several host materials have been synthesized and activated for the fabrication of novel optical sources, in both conventional and novel wavelength ranges such as medium infrared and terahertz. Rare-earth ions such as neodymium, praseodymium, holmium, ytterbium, thulium, and erbium have been included for doping/codoping different host materials such as glass oxides, germanate, fluorides, fluoroindate, chalcogenide, tellurite, glass ceramics, crystalline, organics, etc. or in molecular complexes. Moreover, low-cost, available on the market broadband/tunable optical sources such as quantum cascade lasers and microstructured/multicore fibers have enabled novel applications in the field of high power, high beam quality/high brilliance light sources, and high-performance amplifiers. The development of resonant optical microresonators (such as microrings, microdisks, microspheres, microbubbles) promises miniaturized optical sources and novel sensing systems, exploiting microstructured optical fibers, ad hoc fluorescent probes, luminescent labels, and optical detectors to perform medical diagnosis, environment and earth atmosphere monitoring, and optical remote sensing.
The aim of the Section "Lasers, Light Sources and Sensors" is to promote publications of the most promising experimental and theoretical results from the worldwide research community including but not limited to topics pertaining to rare-earth-doped-fiber lasers, continuous wave and pulsed lasers, laser amplifiers, ultrafast pulse lasers, nonlinear optics for optical pulse forming, continuous-wave generation, laser micro/nanofabrication, optical fiber and integrated optical sensors, laser production methodologies and applications, laser processing, laser ablation, fiber sensors, optical sensing, optical fiber grating sensing, microfluidic circuits for sensing, novel materials and technologies for optical sources, organic light-emitting diodes (OLEDs), and so on.
Editorial Board
Topical Advisory Panel
Special Issues
Following special issues within this section are currently open for submissions:
- Ultrafast Pulse Shaping Techniques: From Temporal to Spatiotemporal Control (Deadline: 30 April 2024)
- Advanced Photonic Sensing and Measurement II (Deadline: 30 April 2024)
- Emerging Trends in Optical Fiber Sensors and Sensing Techniques (Deadline: 30 April 2024)
- Ultrafast Laser Science and Advanced Technologies (Deadline: 30 April 2024)
- The Emerging Science and Applications of Fiber Laser Technology (Deadline: 30 April 2024)
- Progress and Prospects in Optical Fiber Sensing (Deadline: 10 May 2024)
- High-Power Infrared Laser Systems: Design, Characterization, and Applications (Deadline: 15 May 2024)
- Optical Vortex Laser (Deadline: 30 May 2024)
- Optics and Laser: Light Field Manipulation (Deadline: 31 May 2024)
- Advanced Semiconductor Laser Diodes and Detectors (Deadline: 31 May 2024)
- Novel Ultraviolet Laser: Generation, Properties and Applications (Deadline: 1 June 2024)
- Laser Technology and Applications (Deadline: 10 June 2024)
- Research on Rare-Earth-Doped Fiber Lasers (Deadline: 10 June 2024)
- Specialty Optical Fibers and Their High-Power Applications (Deadline: 15 June 2024)
- Single Frequency Fiber Lasers and Their Applications (Deadline: 20 June 2024)
- Ultrafast Pulsed Fiber Laser and Applications (Deadline: 30 June 2024)
- Editorial Board Members’ Collection Series: Photonics Sensors (Deadline: 30 June 2024)
- Advances in Ultrafast Laser Science and Applications (Deadline: 30 June 2024)
- Recent Progress in Ultrafast Laser (Deadline: 30 June 2024)
- New Perspectives in Ultrafast Intense Laser Science and Technology (Deadline: 20 July 2024)
- Recent Advances in Free Electron Laser Accelerators (Deadline: 20 July 2024)
- Advancements in Fiber Lasers: Ytterbium-Doped, Raman-Based and Hybrid Systems (Deadline: 20 July 2024)
- Optical Fibre Sensing: Recent Advances and Future Perspectives (Deadline: 30 July 2024)
- Advances in Optical Fiber Sensing Technology (Deadline: 31 July 2024)
- Fundamentals and Applications of Vortex Beams (Deadline: 31 July 2024)
- Narrow Linewidth Laser Sources and Their Applications (Deadline: 10 August 2024)
- Novel Laser Technologies and Their Applications (Deadline: 20 August 2024)
- Ultrafast Optics and Applications (Deadline: 20 August 2024)
- High-Power Fiber Lasers (Deadline: 31 August 2024)
- Recent Advancements in Tunable Laser Technology (Deadline: 31 August 2024)
- Laser Beam Propagation and Control (Deadline: 20 September 2024)
- Technologies and Applications of Spectroscopy (Deadline: 20 September 2024)
- High-Power Ultrafast Lasers: Development and Applications (Deadline: 30 September 2024)
- GHz Ultrafast Lasers and Optical Frequency Combs (Deadline: 30 September 2024)
- Development of Fiber Bragg Grating Sensors for Measurements in Extreme Environments (Deadline: 15 October 2024)
- Advancements in Fiber Lasers and Their Applications (Deadline: 31 October 2024)
- Advanced Lasers and Their Applications II (Deadline: 31 October 2024)
- Fundamentals, Advances, and Applications in Optical Sensing (Deadline: 28 February 2025)
