A Novel Method of Measuring Instantaneous Frequency of an Ultrafast Frequency Modulated Continuous-Wave Laser

Ultrafast linear frequency modulated continuous-wave (FMCW) lasers are a special category of CW lasers. The linear FMCW laser is the light source for many sensing applications, especially for light detection and ranging (LiDAR). However, systems for the generation of high quality linear FMCW light are limited and diverse in terms of technical approaches and mechanisms. Due to a lack of characterization methods for linear FMCW lasers, it is difficult to compare and judge the generation systems in the same category. We propose a novel scheme for measuring the mapping relationship between instantaneous frequency and time of a FMCW laser based on a modified coherent optical spectrum analyzer (COSA) and digital signal processing (DSP) method. Our method has the potential to measure the instantaneous frequency of a FMCW laser at an unlimited sweep rate. In this paper, we demonstrate how to use this new method to precisely measure a FMCW laser at a large fast sweep rate of 5000 THz/s by both simulation and experiments. We find experimentally that the uncertainty of this method is less than 100 kHz and can be improved further if a frequency feedback servo system is introduced to stabilize the local CW laser.

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A novel method of sourceless continuous wave laser for fiber-to-the-home application

Journal of Optics ◽

10.1088/2040-8986/aa9bce ◽

2017 ◽

Vol 20 (1) ◽

pp. 015705

Author(s):

Abhishek Anchal

Keyword(s):

Continuous Wave ◽

Continuous Wave Laser ◽

Fiber To The Home ◽

Novel Method ◽

Wave Laser

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1848: Revolix 70 Watt 2 Micron Continuous Wave Laser Vaporesection of the Prostate. Preliminary Results After a One Year Follow-Up

The Journal of Urology ◽

10.1016/s0022-5347(18)32021-4 ◽

2007 ◽

Vol 177 (4S) ◽

pp. 614-614

Author(s):

Thorsten Bach ◽

Thomas R.W. Herrmann ◽

Roman Ganzer ◽

Andreas J. Gross

Keyword(s):

Continuous Wave ◽

Continuous Wave Laser ◽

Preliminary Results ◽

Wave Laser ◽

One Year

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Thermo-responsive polymer encapsulated gold nanorods for single continuous wave laser-induced photodynamic/photothermal tumour therapy

Journal of Nanobiotechnology ◽

10.1186/s12951-020-00754-8 ◽

2021 ◽

Vol 19 (1) ◽

Author(s):

Beilei Gong ◽

Yuanbing Shen ◽

Huiyan Li ◽

Xiaojun Li ◽

Xia Huan ◽

...

Keyword(s):

Gold Nanorods ◽

Biomedical Applications ◽

Continuous Wave ◽

Continuous Wave Laser ◽

Tumour Site ◽

Polymer Shell ◽

Potential System ◽

Responsive Polymer ◽

Good Biocompatibility ◽

Spr Effect

AbstractOwing to strong and tunable surface plasmon resonance (SPR) effect and good biocompatibility, gold nanoparticles have been suggested to be a versatile platform for a broad range of biomedical applications. In this study, a new nanoplatform of thermo-responsive polymer encapsulated gold nanorods incorporating indocyanine green (ICG) was designed to couple the photothermal properties of gold nanorods (AuNRs) and the photodynamic properties of ICG to enhance the photodynamic/photothermal combination therapy (PDT/PTT). In addition to the significantly increased payload and enhancing photostability of ICG, the polymer shell in the nanoplatform also has thermo-responsive characteristics that can control the release of drugs at tumour sites upon the laser irradiation. On the basis of these improvements, the nanoplatform strongly increased drug aggregation at the tumour site and improved the photothermal/photodynamic therapeutic efficacy. These results suggest that this nanoplatform would be a great potential system for tumour imaging and antitumour therapy.

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Wireless Sensor material Fusion based Single photon indium phosphide on silicon chip for frequency-modulated continuous-wave light detection and ranging

Journal of Physics Conference Series ◽

10.1088/1742-6596/1804/1/012184 ◽

2021 ◽

Vol 1804 (1) ◽

pp. 012184

Author(s):

R Selvakumar ◽

Ngangbam Phalguni Singh ◽

Shruti Suman

Keyword(s):

Indium Phosphide ◽

Continuous Wave ◽

Single Photon ◽

Light Detection And Ranging ◽

Wireless Sensor ◽

Light Detection ◽

Sensor Material ◽

Continuous Wave Light

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High-precision optical fiber pressure sensor using frequency-modulated continuous-wave laser interference

AIP Advances ◽

10.1063/5.0035643 ◽

2021 ◽

Vol 11 (2) ◽

pp. 025038

Author(s):

Lang Bai ◽

Gang Zheng ◽

Bin Sun ◽

Xiongxing Zhang ◽

Qiming Sheng ◽

...

Keyword(s):

Optical Fiber ◽

High Precision ◽

Pressure Sensor ◽

Continuous Wave ◽

Continuous Wave Laser ◽

Laser Interference ◽

Wave Laser

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LiDAR-Based Glass Detection for Improved Occupancy Grid Mapping

Sensors ◽

10.3390/s21072263 ◽

2021 ◽

Vol 21 (7) ◽

pp. 2263

Author(s):

Haileleol Tibebu ◽

Jamie Roche ◽

Varuna De Silva ◽

Ahmet Kondoz

Keyword(s):

Laser Scanner ◽

Point Clouds ◽

Light Detection And Ranging ◽

Test Results ◽

New Approach ◽

Occupancy Grid ◽

Laser Scanners ◽

Novel Method ◽

Occupancy Grid Mapping ◽

Cartesian Coordinate

Creating an accurate awareness of the environment using laser scanners is a major challenge in robotics and auto industries. LiDAR (light detection and ranging) is a powerful laser scanner that provides a detailed map of the environment. However, efficient and accurate mapping of the environment is yet to be obtained, as most modern environments contain glass, which is invisible to LiDAR. In this paper, a method to effectively detect and localise glass using LiDAR sensors is proposed. This new approach is based on the variation of range measurements between neighbouring point clouds, using a two-step filter. The first filter examines the change in the standard deviation of neighbouring clouds. The second filter uses a change in distance and intensity between neighbouring pules to refine the results from the first filter and estimate the glass profile width before updating the cartesian coordinate and range measurement by the instrument. Test results demonstrate the detection and localisation of glass and the elimination of errors caused by glass in occupancy grid maps. This novel method detects frameless glass from a long range and does not depend on intensity peak with an accuracy of 96.2%.

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