IEEE Photonics Technology Letters

Papers
(The H4-Index of IEEE Photonics Technology Letters is 25. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2022-01-01 to 2026-01-01.)
ArticleCitations
Blank Page52
Front Cover44
Blank Page42
Impact of Diffusion Profile on the Modulation Response of Single-Mode Disorder-Defined VCSELs41
Table of Contents41
Front Cover40
Front Cover39
IEEE Photonics Technology Letters Information for Authors36
Table of Contents35
Suppression of Artifacts Caused by Phase Errors and Noises in X-Ray Phase Computed Tomography33
IEEE Photonics Technology Letters publication information33
Nondestructive Evaluation of Detuned Wavelength for As-Grown VCSEL Epi-Wafer33
Nonlinear-Compensation High-Uniformity Pulsed Bessel Beam in the Transparent Material32
Optical Coupling Technique Based on Fiber Side-Polishing Without Service Interruption32
Realization of Optically Stimulated Synaptic Memristor Devices Using MoO331
IEEE Photonics Technology Letters publication information30
Ultra-Compact Inverse Designed Multimode Waveguide Bend Based on Levelset Method30
Blank Page29
Deep-Learning-Based Rapid Imaging Through Scattering Media Beyond the Memory Effect29
Fiber Magnetic Field Sensor With Extended Linear Measuring Range Based on Magneto-Shape Effect27
Spectral-Efficient Gapped Index Modulation for FTN-mCAP in Bandlimited VLC27
Ultra-Compact and Ultra-Low Insertion Loss Silicon Optical Polarizer Based on Inverse Design27
High-Repetition-Rate Real-Time Automatic Mode-Locked Fibre Laser Enabled by a Pre-Stretch Technique26
CMOS Integrated 32 A/W and 1.6 GHz Avalanche Photodiode Based on Electric Field-Line Crowding26
A 106.25 Gb/s 2ASK-DBPSK Integrated Silicon Self-Coherent Optical Receiver25
Fast Wavelength Thermal Tuning of DFB Lasers for Ultra Dense WDM-PONs25
Magneto-Optical Modulation of Bismuth-Doped Rare Earth Iron Garnet in a 1342 nm Resonator25
Quantum Dot-Based Visible Light Communication System for Microalgal Density Analysis25
Advanced Integration of Sensing and Communication With High DSP Compatibility for SMART Network25
0.036910057067871