上午講題 |
講師 |
演講介紹 |
主題演講1 - Synopsys Optical Solutions Group: Recent Developments and Future Directions |
Jake Jacobsen│資深技術行銷經理 |
The Synopsys Optical Solutions Group has a long history of providing industry-leading optical design software across a wide range of applications. In this talk we will briefly discuss the company and it’s history. We will then discuss our different product lines including: CODE V, LightTools, LucidShape, RSoft and our newest addition Phoenix PIC Design software. We will also talk about future developments for each of the software lines. |
主題演講2-待定 |
待定 |
待定 |
主題演講3-Micro LED 檢測方案 |
待定│ |
待定 |
Track A- 成像 |
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Modeling diffractive surfaces in CODE V |
Bruce Irving │ |
This talk will introduce features for modeling diffractive surfaces, using them to correct aberrations, and calculating diffraction efficiency. |
LightTools之鏡頭雜散光分析 |
鄭至翔│應用工程師 |
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待定 |
胡理策│應用工程師 |
待定 |
Athermal Optimization with the Enhanced ENVPIK |
Bruce Irving │ |
This talk will introduce the ENVPIK utility for simulating thermal changes in an optical system and optimizing the system to compensate for these thermal changes. |
Track B- 車用光學 |
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Simulation Methodology for LiDAR on Chip |
許成林│RSoft 產品經理 |
Simulation plays a critical role in the design and optimization of LiDAR on chip, but there is no single software tool that can completely handle such a complex device. In this paper, we present a simulation methodology that decomposes the complex structure into several simpler building blocks, and applies the appropriate algorithm to each. For example, the grating coupler, which is too big for a full FDTD simulation, can be treated through a coherent combination of individual grating simulation results. This provides a feasible solution which can be run on a typical PC. |
車用光學設計與分析技巧 |
黃振溢│應用工程師 |
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Optimizing Enclosed Energy for a Short Range LiDAR Receive |
Bruce Irving │ |
This talk focuses on some unique optical design functions available in CODE V. These functions enable designers to analyze and optimize for enclosed energy on detectors of various geometry. The main example discussed is a short range LiDAR receiver system, but the techniques apply to many design applications. |
車用照明光學設計 |
呂明軒│應用工程師 |
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Track C- 照明 |
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Understanding Etendue |
Jake Jacobsen│ 資深技術行銷經理 |
Étendue is one of the most important optical quantities in illumination design, yet it is one of the least understood among designers. In this talk we will attempt to de-mystify étendue by providing practical examples of how to apply the principle to real systems. |
於LightTools內探討 Micro LED顯示器 |
呂明軒│應用工程師 |
在本演講中將會針對光積體電路(Integrated Photonics Circuits)矽光子的發展做介紹,包含:相關技術開發、工具使用、製程狀況、國家晶片系統設計中心光積體電路(矽光子)元件設計與測試平台建置等主題進行介紹。 |
色彩學在影像工程與照明工程之應用 |
陳鴻興│副教授 |
在本演講中將會針對工研院248 nm微影技術,建立200 mm矽光子元件平台開發作介紹,元件包括:光柵耦合器、MMI splitter、AWG multiplexer、high speed silicon E/O modulator及Ge-on-SOI photodetector,本技術開發含設計、製造,主被動元件測試驗證。 |
Freeform Design in LightTools |
Jake Jacobsen│ 資深技術行銷經理 |
The use of freeform optics is becoming more common and more critical to optical designs. LightTools has a unique, advanced Freeform Design tool. This tool allows users to quickly design freeform reflectors and lenses to meet a wide variety applications. In this talk we will review the capabilities and usage of the Freeform Designer including the new distortion correction tool that allows users to compensate for intervening optics such as projection lenses, fixture covers and turn mirrors. The talk will include a number of live demonstrations. |
Track D-穿戴裝置 |
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3D 深度感測之透鏡設計 |
胡理策│應用工程師 |
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新一代繞射光學-平板聚焦元件的新時代 |
鄭鈺潔│助理教授 |
光學聚焦元件的設計上從日常生活隨處可見的光學鏡頭的應用,到微奈米的積體光路元件,都能將光源成像或聚焦至同一個點,但對於高品質成像或是聚焦元件積體化,一直是科學家和工程視為挑戰之一。新一代的聚焦元件打破傳統厚重的凹凸透鏡,此平面鏡頭也稱超穎透鏡(Metalenses),不需透鏡消弭像差,只需要薄薄一片基板上面製作奈米柱陣列,即可達到高解析影像。這樣的微小結構設計,需要的空間更小,高成像效率,可達到裝置輕薄化,可應用於需要輕薄的穿戴裝置,例如AR/VR眼鏡等。 |
Design and Simulation of Metalens Structures with RSoft and CODE V |
許成林│RSoft 產品經理 |
Metalens has attracted a lot of attention latterly and design such component remains a challenge problem because of its optically big device with tinny nano-structure. In this talk, we demonstrated an effective simulation approach for metalens design by combining multiple Synopsys tools. Rigorous RSoft FullWAVE or DiffractMOD are used to calculate the phase delay of various nano-cells, and efficient BeamPROP or CODE V BSP are used to trace the beam propagation through the metalens or its phase mask. The test example shows that this multi-tool combined approach is accurate and efficient with reduced demand on computational memory and time. |
光學式心率感測器之模擬與設計 |
鄭至翔│應用工程師 |
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