國立陽明交通大學光電學院

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首頁系所介紹光電系統研究所內文

系所介紹

師資陣容

潘瑞文

職稱:教授

辦公室位置:
奇美樓R321
辦公室電話:
#57756
信箱:
juiwenpan@nycu.edu.tw ; juiwenpan@gmail.com
網頁:
https://lab335guangxueshejishiyanshi.webnode.tw/
專長:
光學設計、光學檢測、光學模擬
研究:
1.投影顯示系統
2.色彩學
3.LED 照明光學
4.III-V族高效率聚光型太陽能電池之聚光鏡設計
5.背光模組設計
6.光學波前測試技術
7.先進光源模組開發
8.先進檢測模組開發

學歷一覽

  • 學校名稱

    國別

    系所

    學位

    起迄年月

  • 中央大學

    國別:台灣

    系所:光電科學研究所

    學位:博士

    起迄年月:2003年9月~2008年6月

  • 中央大學

    國別:台灣

    系所:光電科學研究所

    學位:碩士

    起迄年月:1997年9月~1999年6月

  • 中央大學

    國別:台灣

    系所:物理系

    學位:學士

    起迄年月:1993年9月~1997年6月

經歷一覽

  • 服務機關

    職稱

    部門/系所

    擔任職務

    起迄年月

  • 交通大學

    職稱:教授

    部門/系所:光電系統所

    擔任職務:

    起迄年月:2016年8月~

  • 交通大學

    職稱:副教授

    部門/系所:光電系統所

    擔任職務:

    起迄年月:2013年8月~2016年7月

  • 交通大學

    職稱:助理教授

    部門/系所:光電系統所

    擔任職務:

    起迄年月:2009年8月~2013年7月

  • 久元電子

    職稱:副理

    部門/系所:開發處

    擔任職務:

    起迄年月:2007年3月~2008年11月

  • 羅技電子

    職稱:主任工程師

    部門/系所:光學技術組

    擔任職務:

    起迄年月:2006年3月~2006年11月

  • 普立爾電子

    職稱:高級光學工程師

    部門/系所:數位影像事業處

    擔任職務:

    起迄年月:2002年3月~2006年3月

  • 台達電子

    職稱:光學工程師

    部門/系所:投影顯示事業部

    擔任職務:

    起迄年月:1999年10月~2002年3月

論文著作

[1] P. A. Lin, J. W. Pan*, "Cassegrain-based concentrator with a high uniformity and acceptance angle" Appl. Opt. 63(17), 4661-4667 (2024). IF 1.7, Rank 60/120.
[2] C. S. Yang, J. W. Pan*, "Design for a virtual reality head-mounted display with holographic pancake optics" Appl. Opt. 63(17), 4486-4491 (2024). IF 1.7, Rank 60/120.
[3] P. Y. Lin, J. W. Pan*, "Compact single-panel LCD projector with high uniformity" Appl. Opt. 62(29), 7783-7790 (2023). IF 1.9, Rank 69/100.
[4] T. Y. Tai, J. W. Pan*, S. C. Jeng*, "A low aberration liquid crystal lens for an immersive head-mounted display" Opt. Laser Technol., 167, 109834(2023). IF 5.0, Rank 18/100.
[5] H. C. Pan, J. W. Pan*,K. D. Chang* "Prediction of surface roughness in different machining methods using a texture mask feature extraction method," Appl. Opt. 61, 10637-10643 (2022)
[6] Y. K. Hong, J. W. Pan* S. C. Jeng* "Low aberration and fast response liquid crystal lens with optically compensated bend structures"Opt Laser Technol. 0030-3992,(2022)
[7] Y. H. Cheng, J. W. Pan* S. C. Jeng* "A low speckle laser pico-projector using dynamic light scattering liquid crystal devices" Display. 0141-9382 (2022)
[8] W. W. Chen, J. W. Pan*S. C. Jeng*, "Circularly polarized optical microscope using a low aberration liquid crystal lens," Opt. Lett. 46, 4434-4437 (2021).IF 3.776, Rank 0.222.
[9] W. C. Ding, J. W. Pan* "High-contrast ratio and high-efficiency anamorphic DLP illumination system design with a freeform surface lens," Appl. Opt. 60, 6255-6263 (2021).IF 1.980, Rank 0.626.
[10] Y. X. Song, J. W. Pan* "High speckle reduction rate in a laser projection system," Appl. Opt. 60, 10564-10569 (2021).IF 2.912,
[11] G. Y. Liu, W. L. Hsu, J. W. Pan*, C. M. Wang, "Refractive and Meta-Optics Hybrid System," J. Lightwave Technol. 39, 6880-6885 (2021).IF 4.142, Rank 0.253.
[12] Y. C. Lu, J. W. Pan* "Three-zone multifocus hybrid Fresnel lens concentrator"Appl. Opt. 60, 3281-3289 (2021).IF 1.961, Rank 0.546.
[13] J. J. Gao, J. W. Pan* S. C. Jeng* "Low-aberration liquid crystal lens with positive and negative focal length" Opt. Lett.45(18). 5077-5080 (2020).IF 3.714, Rank 0.1856.
[14] C. L. Huang, J. W. Pan* "Cassegrain-based concentrator with tailored mirrors" Appl. Opt.59(28). 8603-8611(2020).IF 1.961, Rank 0.546.
[15] M. A. Mahmood, T. Y. Tsai, Y. J. Hwu, W. J. Lin, L. C. Liu, J. Y. Lai, J. W. Pan, W. L. Li, J. F. Lin* "Effect of fractal parameters on optical properties of cold rolled aluminum alloy strips with induced surface deflection: Simulations and experimental correlations"J. Mater. Sci. Technol. 279, (2020), IF 4.178, Rank 0.924.
[16] Y. J. Chen, J. W. Pan* "Designing an anamorphic illumination system with an RTIR prism for a tilt-and-roll-pixel-type projector" Appl. Opt. 59, 3530-3537 (2020). IF 1.961, Rank 0.511.
[17] C. K. Lo, J. W. Pan* "Speckle Reduction with Fast Electrically Tunable Lens and Holographic Diffusers in a Laser Projector" Opt. Commun. 454, (2020), IF 1.961, Rank 0.505.
[18] T. H. Wu, J. W. Pan* "An immersive head-mounted display with a liquid lens" Opt. Commun. 446, (2019), IF 1.961, Rank 0.505.
[19] L. Y. Chen, J. W. Pan*,M. J. Sheu, K. D. Chang "Microprism for a capsule endoscope with wafer level optics" J. Opt. 21. (2019).IF 2.753,Rank 0.316
[20] Y. D. Chen, S. H. Tu, H. F. Hong, C. Y. Chen ,J. W. Pan* "Nine-sector three-stage Fresnel lens concentrator," Appl. Opt. 58(1), 122-130 (2019). IF 1.791, Rank 0.521.
[21] W.C. Tsao, Q.C. Zeng, Y.H. Yeh, C.H. Tsai, H.F. Hong, C.Y. Chen, T.Y. Lin, Y.Y. Huang, C.W. Tsao, J. W. Pan*, C.M. Wang,” Efficiency evaluation of a hybrid miniaturized concentrated photovoltaic for harvesting direct/diffused solar light.” J. Opt. 21(3). (2019),IF 2.323,Rank 0.372.
[22] M. J. Sheu, Y. L. Liu, J. J. Wang , J. W. Pan* "Design of a bi-directional illumination system for a dual view capsule endoscope,"J. Mod. Opt. 66(3), 252-262 (2018). IF 1.328, Rank 0.63.
[23] J. W. Pan*,J. S. Li, C. M. Wang,"Global solution of achromatic Total Internal Reflection prism in projection system"Opt. Commun. 428, 141-151,(2018). IF 1.887, Rank 0.49.
[24] H. C. Wang, J. W. Pan* "An ultrashort throw ratio projection lens design based on a catadioptric structure,"J. Mod. Opt. 65(12),1393-1403 (2018). IF 1.328, Rank 0.63.
[25] H. A. Chen, J. W. Pan* and Z. P. Yang "Speckle reduction using deformable mirrors with diffusers in a laser pico-projector,"Opt. Express. 25(15),18140-18151 (2017). IF 3.307, Rank 0.174.
[26] J. W. Pan* and C. H. Shih "Speckle noise reduction in the LASER mini-projector by vibrating diffuser," J. Opt. 19(4) (2017). IF 2.059, Rank 0.299.
[27] W. S. Sun and J. W. Pan* "Non-telecentric projection lens design for a LED projector," Appl. Opt. 56(3), 712-720 (2017).IF 1.784, Rank 0.4137..
[28] J. W. Pan*, Y. C. Su and S. Y. Lee, "Optimized planar micro-optic concentrator design," J. Opt. 18(6) (2016). IF 2.059, Rank 0.299.
[29] K. W. Zhao and J. W. Pan*, "Optical design for a see-through head-mounted display with high visibility," Opt. Express. 24(5), 4749-4760 (2016). IF 3.488, Rank 0.115.
[30] K. W. Zhao and J. W. Pan*, "Efficiency balance of a light guide plate with microstructures for a see-through head-mounted display," Chin. Opt. Left. 14(2), 022201 (2016).IF 1.857, Rank 0.3793.
[31] B. T. Chen, and J. W. Pan*, "Dual-view angle backlight module design," Appl. Opt. 54(28), E80-E87 (2015).IF 1.784, Rank 0.4137.
[32] W. S. Sun*, C. L. Tien, J. W. Pan, K. C. Huang and Pu-Yi Chu , "Simulation of autofocus lens design for a cell phone camera with object distance from infinity to 9.754 mm," Appl. Opt. 54(28), E203-E209 (2015).IF 1.784, Rank 0.4137.
[33] W. S. Sun, C. L. Tien*, Y. C. Chiang, and J. W. Pan, "Simulation design of a wearable see-through retinal projector," Appl. Opt. 54(14), 4485-4494(2015).IF 1.649, Rank 0.3494.
[34] M. J. Sheu, C. W. Chiang, W. S. Sun, J. J. Wang, and J. W. Pan*, "Dual view capsule endoscopic lens design," Opt. Express. 23(7), 8565-8575(2015). IF 3.525, Rank 0.0723.
[35] H. Y . Miao*, J. H. Liu, L. Saravanan, C. W. Tsao, and J. W. Pan, "Dielectric property determination of hybrid Al2O3-filled MWCNT buckypaper by the rectangular cavity perturbation technique," Appl. Phys. A 119(1), 211-217(2015). IF 1.694, Rank 0.3824.
[36] J. W. Pan* and H. C. Hung, "Optical Design of a Compact See-Through Head-Mounted Display With Light Guide Plate,"J. Disp. Technol. 11(3), 223-228 (2015). IF 2.241, Rank 0.1888.
[37] C. W. Chiang, Y. K. Hsu, and J. W. Pan*, "Design and demonstration of high efficiency anti-glare LED luminaires for indoor lighting," Opt. Express. 23(3), A15-A26(2015). IF 3.525, Rank 0.0723.
[38] J. W. Pan* and Y. C. Chen, "Wide-converter lens design for a pico projector, "Appl. Opt. 53(36),8481-8491(2014).IF 1.649, Rank 0.3494.
[39] W. S. Sun, C. L. Tien*, C. H. Tsuei, and J. W. Pan, "Simulation and comparison of the illuminance, uniformity, and efficiency of different forms of lighting used in basketball court illumination,"Appl. Opt. 53(29), H186-H194 (2014). IF 1.649, Rank 0.3494.
[40] W. S. Sun, C. L. Tien*, C. H. Tsuei, C. H. Ma, and J. W. Pan, "Compact LED projector design with high uniformity and efficiency,"Appl. Opt. 53(29), H227-H232 (2014). IF 1.649, Rank 0.3494.
[41] Y. C. Huang and J. W. Pan*, "High contrast ratio and compact-sized prism for DLP projection system," Opt. Express. 22(14), 17016-17029 (2014). IF 3.525, Rank 0.0723.
[42] J. W. Pan*, C. W. Chiang, K. D. Huang, and C. Y. Wu,"Demonstration of a broad band spectral head-mounted display with freeform mirrors," Opt. Express. 22(11),12785-12798 (2014). IF 3.525, Rank 0.0723.
[43] J. W. Pan* and C. H. Shih, "Speckle reduction and maintaining contrast in a LASER pico-projector using a vibrating symmetric diffuser," Opt. Express. 22(6), 6464-6477 (2014). IF 3.525, Rank 0.0723.
[44] K. D. Chang, C. Y. Li, J. W. Pan*, and K. Y. Cheng, "A hybrid simulated method for analyzing the optical efficiency of a head-mounted display with a quasi-crystal OLED panel," Opt. Express. 22(S2), A567-A576 (2014). IF 3.525, Rank 0.0723.
[45] C. Y. Li and J. W. Pan*, " High-efficiency backlight module with two guiding modes,"Appl. Opt. 53(8), 1503-1511 (2014). IF 1.647, Rank 0.3494.
[46] J. W. Pan*, Y. C. Su, and Y. S. Chen, "Secondary optical element design for intracorporeal LED illumination system," Opt. Lett. 39(2), 224-227 (2014). IF 3.179, Rank 0.1204.
[47] J. W. Pan*and H. H. Wang, "High contrast ratio prism design in a mini projector," Appl. Opt. 52(34), 8347-8354 (2013). IF 1.649, Rank 0.3494.
[48] J. W. Pan* and Y. W. Hu, "Design of a Hybrid Light Guiding Plate With High Luminance for Backlight System Application," J. Disp. Technol. 9(12), 965-971(2013). IF 1.663, Rank 0.3875.
[49] W. S. Sun, C. L. Tien*, J. W. Pan, T. H. Yang, C. H. Tsuei, Y. H. Huang,"Simulation and Comparison of the Lighting Efficiency for Household Illumination with LEDs and Fluorescent Lamps," J. Opt. Soc. Korea. 17(5), 376-383 (2013). IF 1.022, Rank 0.5875.
[50] Y. C. Lee*, S. C. Yeh, Y. Y. Chou, P. S. Tsai, J. W. Pan, H. M. Chou, C. H. Hou, Y. Y. Chang, M. S. Chu, C. H. Wu and C. H. Ho, "High-efficiency InGaN-based LEDs grown on patterned sapphire substrates using nanoimprinting technology," Microelectron. Eng. 105, 86-90 (2013). IF 1.557, Rank 0.417.
[51] J. W. Pan*, P. J. Tsai, K. D. Chang, and Y. Y. Chang, "Light extraction efficiency analysis of GaN-based light-emitting diodes with nanopatterned sapphire substrates," Appl. Opt. 52(7), 1358-1367(2013). IF 1.649, Rank 0.3494
[52] C. W. Tsao, L. Saravanan, J. H. Liu, H. Y. Miao*, L. C. Wang, and J. W. Pan, "Microwave Absorption Properties of Silver Doped MWCNT Buckypaper," Asian. J. Chem. 25, S5-S8 (2013). IF 1.689, Rank 0.912.
[53] J. W. Pan* and C. S. Wang, "Light extraction efficiency of GaN-based LED with pyramid texture by using ray path analysis," Opt. Express. 20(S5), A630-A640 (2012). IF 3.546, Rank 0.0625.
[54] J. W. Pan* and Y. W. Hu, "Light guide plate using periodical and single-sized microstructures to create a uniform backlight system," Opt.Lett. 37(17) 3726-3728 (2012). IF 3.385, Rank 0.075.
[55] J. W. Pan* and S. H. Tu, "Demonstration of a simplified optical mouse lighting module by integrating the non-Lambertian LED chip and the free-form surface," Appl. Opt. 51(15), 2834-2841 (2012). IF 1.689, Rank 0.3625.
[56] J. W. Pan*, "Compact camera module testing equipment with a conversion lens," Opt. Express. 20(5), 5303-5312 (2012). IF 3.546, Rank 0.0625.
[57] J. W. Pan* and C. W. Fan, "High luminance hybrid light guide plate for backlight module application," Opt. Express. 19(21), 20079-20087(2011). IF 3.587, Rank 0.0759.
[58] J. W. Pan*, J. Y. Huang, C. M. Wang, H. F. Hong, and Y. P. Liang, "High concentration and homogenized Fresnel lens without secondary optics element," Opt. Commun. 284(19), 4283–4288 (2011). IF 1.517, Rank 0.39.
[59] J. W. Pan* and S. H. Lin, "Achromatic design in the illumination system for a mini projector with LED source,"Opt. Express. 19(17), 15750-15759(2011). IF 3.587, Rank 0.0759.
[60] S. H. Tu*, S. Y. Wu, Y. C. Lee, J. W. Pan, C. H Kuo, C. M. Wang, and J. Y. Chang, "Functional imprinting structures on GaN-based light-emitting diodes for light pattern modulation and light extraction efficiency enhancement," Opt. Review. 17(4), 379-384 (2010).
[61] J. W. Pan*, S. H. Tu, W. S. Sun, C. M. Wang, and J. Y. Chang, "Integration of Non-Lambertian LED and Reflective Optical Element as Efficient Street Lamp," Opt. Express. 18(S2), A221-A230 (2010).IF 3.753, Rank 0.0641.
[62] C. M. Wang*, H. I. Huang, J. W. Pan, K. Z. Kuo, H. F. Hong, H. Y. Shin, and J. Y. Chang*, "Single stage transmission type broadband solar concentrator," Opt. Express. 18(S2), A118-A125 (2010). IF 3.753, Rank 0.0641.
[63] S. H. Tu, J. W. Pan, C. H. Wang and Y. C. Lee, "New collection systems for multi LED light egines," Opt. Review. 16(3), 318-322 (2009). IF 0.529, Rank 0.77.
[64] W. S. Sun*, K. D. Liu, J. W. Pan, C. L. Tien, and M. S. Hsieh, "Laser expander design of highly efficient Blu-ray disc pick-up head," Opt. Express. 17(4), 2235-2246 (2009). IF 3.278, Rank 0.0422.
[65] C. H. Tsuei, J. W. Pan, and W. S. Sun*, "Simulating the illuminance and the efficiency of the LED and fluorescent lights used in indoor lighting design," Opt. Express. 16(23), 18692-18701(2008). IF 3.880, Rank 0.0468.
[66] J. W. Pan*, S. H. Tu, C. M. Wang, and J. Y. Chang, "High efficiency pocket-size projector with a compact projection lens and a light emitting diode-based light source system," Appl. Opt. 47(19), 3406-3414(2008) . IF 1.763, Rank 0.2812.
[67] J. W. Pan, C. M. Wang, H. C, Lain, W. S, Sun, and J. Y. Chang*, "Homogenized LED-illumination using microlens arrays for a pocket-sized projector," Opt. Express. 15(17), 10483-10491(2007) . IF 3.709, Rank 0.0312.
[68] J. W. Pan*, C. M. Wang, W. S. Sun, and J. Y. Chang, "Portable digital micromirror device projector using a prim," Appl. Opt. 46(22), 5097-5102 (2007). IF 1.701, Rank 0.2656.

專利

[1]許昱凱/潘瑞文/黃雍智,"二次光學元件及光源模組",3082461,中國
[2]潘瑞文/黃雍智/林品君/姜哲文,"PRISM GROUP AND PROJECTION APPARATUS",US9,690,180B2,美國
[3]吳重雨/林伯剛/焦傳金/潘瑞文,"人工視網膜系統及人工視網膜晶片",201410573103.7,中國
[4]許昱凱/潘瑞文/黃雍智,"Secondary Optical Element And Light Source Module",US9,388,957B2,美國
[5]蘇英傑/潘瑞文/陳瑤珊,"照明單元以及體內照明系統",I512337 B2,台灣
[6]潘瑞文,"Optical device for camera testing",US 8902518 B2,美國
[7]施濟濠/潘瑞文,"照明系統以及投影裝置",I504938,台灣
[8]王志中/許銘仁/柳景豐弟/洪祥傑/潘瑞文,"廣視角鏡片",I503598,台灣
[9]吳重雨/林伯剛/焦傳金/潘瑞文/楊文嘉,"人工視網膜系統及眼內植入晶片",I499407,台灣
[10]陳柏村/胡雅文/潘瑞文,"背光模組",I499815,台灣
[11]蔡佩蓉/潘瑞文/朱閔聖/張永源/何俊賢/吳政惠/黃冠霖,"高光取出率LED",I495157,台灣
[12]胡雅文/潘瑞文,"光學膜及使用光學膜之背光模組",I487983,台灣
[13]許銘仁/王志中/潘瑞文/洪祥傑,"頭戴式顯示裝置",I484219,台灣
[14]吳重雨/潘瑞文/蘇昱中/王志中/林育民/許銘仁/馮意哲,"雙視角膠囊內視鏡之鏡頭系統",I474040,台灣
[15]林聖涵/潘瑞文/王祥驊,"消除色差之稜鏡系統及其方法",I471604,台灣
[16]吳重雨/潘瑞文/黃冠達,"影像顯示裝置",I470272,台灣
[17]潘瑞文,"可縮短物距的光學模擬裝置",I467144,台灣

招收研究生系統一覽

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