| 臺大學術典藏 |
2021-09-02T00:04:56Z |
Quantitative spectroscopic comparison of the optical properties of mouse cochlea microstructures using optical coherence tomography at 1.06 μm and 1.3 μm wavelengths
|
Tsa T.-Y;Chen T.-H;Chen H.-C;Chueh C.-B;Huang Y.-P;Hung Y.-P;Tsai M.-T;Baumann B;Wang C.-H;Lee H.-C.; Tsa T.-Y; Chen T.-H; Chen H.-C; Chueh C.-B; Huang Y.-P; Hung Y.-P; Tsai M.-T; Baumann B; Wang C.-H; Lee H.-C.; HSIANG-CHIEH LEE |
| 臺大學術典藏 |
2021-09-02T00:04:56Z |
Effect of A-scan rate and interscan interval on optical coherence angiography
|
Chen T.-H;Wu Y.-C;Tsai T.-Y;Chueh C.-B;Huang B.-H;Huang Y.-P;Tsai M.-T;Yasuno Y;Lee H.-C.; Chen T.-H; Wu Y.-C; Tsai T.-Y; Chueh C.-B; Huang B.-H; Huang Y.-P; Tsai M.-T; Yasuno Y; Lee H.-C.; HSIANG-CHIEH LEE |
| 臺大學術典藏 |
2021-05-06T02:18:17Z |
Development of a long-wavelength swept-source optical coherence tomography system for high-content ex vivo tissue imaging
|
Chueh, C.-B.; Tsai, T.-Y.; Huang, Y.-P.; Chen, T.-H.; Tsai, Y.-N.; Wang, C.-Y.; Chang, T.-C.; Hung, Y.-P.; Lee, H.-C.; YI-PING HUNG; Hsiang-Chieh? Lee |
| 臺大學術典藏 |
2021-05-06T02:18:17Z |
Differentiation of the microvasculature with different blood flow speed based on variable interscan time analysis in OCT angiography skin imaging
|
Tsai, T.-Y.; Huang, Y.-P.; Chen, T.-H.; Chueh, C.-B.; Peng, H.-Y.; Wu, M.-S.; Wu, Y.-C.; Hung, Y.-P.; Tsai, M.-T.; Lee, H.-C.; YI-PING HUNG; Hsiang-Chieh? Lee |
| 臺大學術典藏 |
2021-05-06T02:18:16Z |
The Single Software Architecture Supporting Fourier Domain Optical Coherence Tomography System
|
Huang, Y.-P.; Tsai, T.-Y.; Chen, T.-H.; Chueh, C.-B.; Hung, Y.-P.; Lee, H.-C.; YI-PING HUNG; Hsiang-Chieh? Lee |
| 臺大學術典藏 |
2021 |
Identification of changes in the microvasculature in mouse brain among different physiological states using optical coherence tomography angiography
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Wu Y.-C.; Li C.-C.; Chen M.-A.; Tsai T.-Y.; Chueh C.-B.; Tsai M.-T.; Yasuno Y.; MING-KAI PAN; Lee H.-C.; Chen T.-H. |
| 臺大學術典藏 |
2020-10-20T05:49:51Z |
Swept-source optical coherence tomography imaging of the Guinea pig cochlea
|
HSIANG-CHIEH LEE; ������; Chen T.-H.;Tsai T.-Y.;Chen H.-C.;Chueh C.-B.;Huang B.-H.;Tsai Y.-N.;Tsai M.-T.;Wang C.-H.; Chen T.-H.; Tsai T.-Y.; Chen H.-C.; Chueh C.-B.; Huang B.-H.; Tsai Y.-N.; Tsai M.-T.; Wang C.-H.; HSIANG-CHIEH LEE; Chen T.-H.; Tsai T.-Y.; Chen H.-C.; Chueh C.-B.; Huang B.-H.; Tsai Y.-N.; Tsai M.-T.; Wang C.-H. |
| 臺大學術典藏 |
2020-10-20T05:49:51Z |
Differentiation of the microvasculature with different blood flow speed based on variable interscan time analysis in OCT angiography skin imaging
|
Tsai T.-Y.;HuangY.-P.;Chen T.-H.;Chueh C.-B.;Peng H.-Y.;Wu M.-S.;Wu Y.-C.;Hung Y.-P.;Tsai M.-T.;HSIANG-CHIEH LEE; Tsai T.-Y.; HuangY.-P.; Chen T.-H.; Chueh C.-B.; Peng H.-Y.; Wu M.-S.; Wu Y.-C.; Hung Y.-P.; Tsai M.-T.; HSIANG-CHIEH LEE; Tsai T.-Y.; HuangY.-P.; Chen T.-H.; Chueh C.-B.; Peng H.-Y.; Wu M.-S.; Wu Y.-C.; Hung Y.-P.; Tsai M.-T.; ������; HSIANG-CHIEH LEE |
| 臺大學術典藏 |
2020-10-20T05:49:50Z |
The Single Software Architecture Supporting Fourier Domain Optical Coherence Tomography System
|
Huang Y.-P.;Tsai T.-Y.;Chen T.-H.;Chueh C.-B.;Hung Y.-P.; Huang Y.-P.; Tsai T.-Y.; Chen T.-H.; Chueh C.-B.; Hung Y.-P.; HSIANG-CHIEH LEE; Huang Y.-P.; Tsai T.-Y.; Chen T.-H.; Chueh C.-B.; Hung Y.-P.; ������; HSIANG-CHIEH LEE |
| 臺大學術典藏 |
2020-10-20T05:49:48Z |
Real-time functional optical coherence tomography imaging
|
Lee C.-K.; HSIANG-CHIEH LEE; Lee C.-K.; Tsai M.-T.; Huang Y.-P.; Chueh C.-B.; Tsai T.-Y.; Chang T.-C.; Chen T.-H.; Tsai M.-T.; Huang Y.-P.; Chueh C.-B.; Tsai T.-Y.; Chang T.-C.; Chen T.-H.; Chang T.-C.;Chen T.-H.;Tsai T.-Y.;Chueh C.-B.;Huang Y.-P.;Tsai M.-T.;Lee C.-K. |
| 臺大學術典藏 |
2020-06-11T06:41:34Z |
Development of a long-wavelength swept-source optical coherence tomography system for high-content ex vivo tissue imaging
|
Chueh, C.-B.;Tsai, T.-Y.;Huang, Y.-P.;Chen, T.-H.;Tsai, Y.-N.;Wang, C.-Y.;Chang, T.-C.;Hung, Y.-P.;Lee, H.-C.; Chueh, C.-B.; Tsai, T.-Y.; Huang, Y.-P.; Chen, T.-H.; Tsai, Y.-N.; Wang, C.-Y.; Chang, T.-C.; Hung, Y.-P.; Lee, H.-C.; YI-PING HUNG |
| 臺大學術典藏 |
2020-06-11T06:41:34Z |
Development of a long-wavelength swept-source optical coherence tomography system for high-content ex vivo tissue imaging
|
Chueh, C.-B.;Tsai, T.-Y.;Huang, Y.-P.;Chen, T.-H.;Tsai, Y.-N.;Wang, C.-Y.;Chang, T.-C.;Hung, Y.-P.;Lee, H.-C.; Chueh, C.-B.; Tsai, T.-Y.; Huang, Y.-P.; Chen, T.-H.; Tsai, Y.-N.; Wang, C.-Y.; Chang, T.-C.; Hung, Y.-P.; Lee, H.-C.; YI-PING HUNG |
| 臺大學術典藏 |
2019 |
Development of a long-wavelength swept-source optical coherence tomography system for high-content ex vivo tissue imaging
|
Chueh C.-B.; Tsai T.-Y.; Huang Y.-P.; Chen T.-H.; Tsai Y.-N.; Wang C.-Y.; Chang T.-C.; Hung Y.-P.; HSIANG-CHIEH LEE; Chueh C.-B.; Tsai T.-Y.; Huang Y.-P.; Chen T.-H.; Tsai Y.-N.; Wang C.-Y.; Chang T.-C.; Hung Y.-P.; ������; HSIANG-CHIEH LEE; Chueh C.-B.;Tsai T.-Y.;Huang Y.-P.;Chen T.-H.;Tsai Y.-N.;Wang C.-Y.;Chang T.-C.;Hung Y.-P. |
| 臺大學術典藏 |
2019 |
Differentiation of the microvasculature with different blood flow speed based on variable interscan time analysis in OCT angiography skin imaging
|
YI-CHUN WU; Tsai, M.-T.; Lee, H.-C.; Wu, Y.-C.; Hung, Y.-P.; Wu, M.-S.; Peng, H.-Y.; Chueh, C.-B.; Chen, T.-H.; Huang, Y.-P.; Tsai, T.-Y.; Tsai, T.-Y.;Huang, Y.-P.;Chen, T.-H.;Chueh, C.-B.;Peng, H.-Y.;Wu, M.-S.;Wu, Y.-C.;Hung, Y.-P.;Tsai, M.-T.;Lee, H.-C. |
