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查看斯高帕斯 (Scopus) 概要
林 俊佑
專案副研究員
影像與生醫光電研究所
h-index
h10-index
h5-index
756
引文
16
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
207
引文
7
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
39
引文
4
h-指數
按照存儲在普爾(Pure)的出版物數量及斯高帕斯(Scopus)引文計算。
2005
2024
每年研究成果
概覽
指紋
網路
計畫
(6)
研究成果
(79)
類似的個人檔案
(2)
指紋
查看啟用 Chun-Yu Lin 的研究主題。這些主題標籤來自此人的作品。共同形成了獨特的指紋。
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重量
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Keyphrases
Attenuated Total Reflection
25%
Au Nanorods (AuNRs)
19%
Axial Excitation
12%
Axial Resolution
13%
Bioimaging
29%
Biomolecular Interactions
20%
Biotissue
29%
Bovine Serum Albumin
32%
Computer-generated Holography
24%
Coupled Waveguides
17%
Deep Learning Methods
21%
Digital Micromirror Device
23%
Dual-mode Resonator
14%
Fluorescence Enhancement
13%
Fluorophore
12%
Freeform
24%
Gold Nanorods
19%
Graphene Oxide
23%
Micropatterning
24%
Microscopic Image
25%
Microscopic Imaging
12%
Microstructure
47%
Multiphoton
59%
Multiphoton Excitation
25%
Multiphoton Excitation Microscopy
12%
Multiphoton Microscope
18%
Multiphoton Microscopy
78%
Optical Sectioning
14%
Optical Trapping
12%
Plasmonic Enhancement
29%
Propagation Matrix
19%
Resonant Mirror
15%
Resonant Scanning
14%
Rose Bengal
25%
Sensor Surface
18%
Subwavelength Grating
19%
Subwavelength Grating Structure
15%
Surface Plasmon
50%
Surface Plasmon Polaritons
14%
Surface Plasmon Resonance
19%
Surface Plasmon Resonance Sensor
30%
Temporal Attention
100%
Temporal-focusing multiphoton Excitation Microscopy
39%
Three-dimensional (3D)
33%
Two Dimensional
19%
Two-photon
23%
Two-photon Fluorescence
33%
U-Net
35%
Ultrasound
14%
Wide-field
41%
Engineering
Axial Resolution
14%
Bioinstrumentation
20%
Biosensor
21%
Blazed Grating
7%
Brain Image
8%
Computation Time
8%
Computer Generated Holography
19%
Cover Slip
6%
Deep Learning Method
21%
Dielectrics
12%
Digital Micromirror Device
33%
Dimensional Surface
7%
Electric Field
8%
Experimental Result
29%
Femtosecond Laser
9%
Field Enhancement
10%
Field Programmable Gate Arrays
14%
Fluorescence Imaging
7%
Fluorophore
11%
Frame Rate
17%
Graphene Oxide
14%
Grey Level
6%
High Resolution
7%
Index of Refraction
6%
Lateral Resolution
8%
Light Field
14%
Live Cell
10%
Magnetic Field
10%
Multistage
9%
Nanomaterial
6%
Nanoscale
7%
Objective Lens
11%
Photon Excitation
8%
Plasmonics
39%
Pulse Duration
6%
Pulse Width Modulation
8%
Quantum Dot
9%
Reflectance
6%
Rendered Image
7%
Signal-to-Noise Ratio
17%
Spatial Frequency
9%
Spatial Resolution
9%
Structured Illumination Microscopy
9%
Surface Plasmon
89%
Surface Sensing
8%
Time Domain Processing
7%
Total Internal Reflection
11%
Transfer Learning
6%
Two Dimensional
20%
Waveguide
20%
