18.9 release notes. December If you have questions, contact
|
|
- Kristian Perkins
- 5 years ago
- Views:
Transcription
1 18.9 release notes December 2018 If you have questions, contact
2 Contents 1. Improvements to loading OpticStudio files Added support for optical components Support for conversion of off-axis components to non-sequential Usability and Performance Run Multiple Ray traces in multi-configuration files Performance improvements Bug fixes LensMechanix for SOLIDWORKS 18.9 release notes
3 1. Improvements to loading OpticStudio files 1.1 Added support for optical components Load a wider range of OpticStudio files into LensMechanix LensMechanix now supports the Compound lens, Boolean Native object, and components that convert to Grid Sag. When loading an OpticStudio file, LensMechanix creates the component geometry of the supported components after the conversion to nonsequential. Below is a description of the supported components. Compound lens: The compound lens object is a non-sequential object that support complex combinations of surfaces and apertures on the front and back faces of a lens. The compound lens object references two parent surfaces. The supported parent surface objects include: Standard Surface, Aspheric Surface, Toroidal Surface, Toroidal Odd Asphere, Zernike Surface, Biconic Surface, Biconic Zernike Surface, Extended Polynomial Surface, and Grid Sag Surface. Additional surfaces can be upon request. Boolean Native object: The Boolean native object is a non-sequential object that uses a faster and more accurate ray tracing algorithm than the previously used Boolean object. Grid Sag: Some sequential surfaces and components that do not convert directly to a non-sequential object convert to a 64x64 Grid Sag surface. A Grid Sag is an object whose shape is defined by a rectangular array of points. These points are defined in OpticStudio. Surfaces that exist as Grid Sag in sequential mode currently don t convert to Grid Sag. 1.2 Convert and load off-axis components Load OpticStudio files with off-axis components, such as reflective systems With support of the Grid Sag component, you can load optical systems that have off-axis lenses, mirrors with finite substrates, surfaces with decentered apertures, and more complex aspheric surfaces. Sequential file in OpticStudio Non-sequential file in LensMechanix LensMechanix for SOLIDWORKS 18.9 release notes 3
4 2. Usability and Performance 2.1 Run Multiple Ray traces in multi-configuration files Run multiple ray traces for all configurations with fewer clicks You now have the option of running multiple ray traces for all configurations with fewer clicks. In previous versions, you had to create a prototype for each configuration and run a ray trace for an individual configuration. You can now select the configurations that you want to run a ray trace for and see results for the different configurations faster than before. After you ve loaded a multi-configuration file, you can access the different configurations through the Configuration Manager in SOLIDWORKS. Create a prototype for each configuration. Then click Run Ray Trace. In the dialog box, select the configurations you want to run a ray trace for. 4 LensMechanix for SOLIDWORKS 18.9 release notes
5 2.2 Performance improvements Experience performance improvements with large assemblies Loading times and assembly responsiveness has been improved while working with large SOLIDWORKS assemblies. Performance improvements were seen with assemblies of up to 750 components. Note: LensMechanix does not support components that are set to Lightweight mode in SOLIDWORKS. Ensure that Lightweight mode is disabled when using LensMechanix. 3. Bug fixes LensMechanix 18.9 for SOLIDWORKS includes the following bug fixes While working with assemblies of up to 250 parts, some optical components were missing when the file was reopened. When an assembly was reopened after a crash, all components were outside of the computational domain. The crash and the computational domain have both been fixed. When loading non-sequential files, rays were emanating from the Lambertian source. SOLIDWORKS crashed when opening a file that contained a 100x100 MEMS object. When opening smaller MEMS files, the of the angles defined in the MEMS were not loaded correctly. When using the fold mirror tool, mechanical components could not be selected as references. The Update OpticStudio file function was freezing and failing. When using the Update OpticStudio File function, some components were missing or positioned incorrectly. Rays and Optical Performance Summary results were not visible when tracing through the Odd Asphere lens. ISO drawings were not being created while not working in the Japanese version of SOLIDWORKS. Adding a fold mirror was causing some components to become transparent. While using the fold mirror tool, components excluded from the computational domain could not be selected as references. LensMechanix for SOLIDWORKS 18.9 release notes 5
6 About Zemax Zemax s industry-leading optomechanical product design software, OpticStudio and LensMechanix, helps optical and mechanical engineering teams turn their ideas into reality. Standardizing on Zemax software reduces design iterations and repeated prototypes, speeding time to market, and reducing development costs. We touch nearly every optical system manufactured today, including virtual reality systems, cell phone cameras, autonomous-vehicle sensor systems, and intraocular lenses even imaging systems for the Mars Rover. By listening to our customers, we deliver unmatched value and have the largest, most passionate user base in the industry. Copyright Zemax LLC. All rights reserved. LensMechanix and OpticStudio are registered trademarks of Zemax LLC. All other registered trademarks or trademarks are the property of their respective owners.
18.9 release notes. November If you have questions, contact
18.9 release notes November 2018 If you have questions, contact Support@Zemax.com Contents 1. Sequential tools and analyses...3 1.1 Tolerance in percentage of nominal radius (all editions)...3 1.2 Improved
More information18.4 Release Notes May 10th, 2018
18.4 Release Notes May 10 th, 2018 CONTENTS 1 Sequential Features... 3 1.1 Full-Field Aberration analysis (Professional and Premium editions)... 3 1.2 GRIN surface usage with User-Defined and Grid Sag
More informationRelease notes. October 8, If you have questions, contact
Release notes October 8, 2018 If you have questions, contact Support@Zemax.com Contents 1. About LensMechanix...2 2. LensMechanix User Interface...3 3. Load Opticstudio Files...4 3.1 Load Opticstudio File...4
More informationWHITE PAPER. Get optical products to market faster using modern virtual prototyping. By Mark Nicholson and Cort Stinnett
WHITE PAPER Get optical products to market faster using modern virtual prototyping By Mark Nicholson and Cort Stinnett Get optical products to market faster using modern virtual prototyping 1 Introduction
More informationHelp Manual. LensMechanix 19.1 Creo Parametric.
Help Manual LensMechanix 19.1 Creo Parametric www.zemax.com/lmx/ Sales@zemax.com Support@zemax.com Getting started Introduction to LensMechanix LensMechanix is a Creo extension by Zemax that simplifies
More informationTutorial: Package, analyze, and validate an OpticStudio sequential file in LensMechanix. By Esteban Carbajal, Senior Optomechanical Engineer
Tutorial: Package, analyze, and validate an OpticStudio sequential file in LensMechanix By Esteban Carbajal, Senior Optomechanical Engineer November 2017 www.zemax.com/lmx/ LMxSales@zemaxZemax.com LMxSupport@zemaxZemax.com
More informationTutorial: Package, analyze, and validate a sample lens system. December
Tutorial: Package, analyze, and validate a sample lens system December 2017 www.zemax.com/lmx/ LMxSales@Zemax.com LMxSupport@Zemax.com Introduction In this tutorial, you learn how to package, analyze,
More information4.0 release notes. October 10, If you have questions, contact
4.0 release notes October 10, 2017 If you have questions, contact lmxsupport@zemax.com CONTENTS Contents... 2 1 Overview... 3 2 New Features... 3 2.1 Power Throughput... 3 2.2 Enhanced Multi-configuration
More informationHelp Manual. for LensMechanix
Help Manual for LensMechanix 4.5 www.zemax.com/lmx/ Sales@Zemax.com LMxSupport@Zemax.com Contents What s new in LensMechanix 4.5 Fold Mirror tool Accommodate space requirements for predefined mechanical
More informationTutorial: Package, analyze, and validate a sample lens system. by Isis Peguero, Optomechanical Engineer. August 2016
Tutorial: Package, analyze, and validate a sample lens system by Isis Peguero, Optomechanical Engineer August 2016 www.zemax.com/lmx/ LMxSales@zemax.com LMxSupport@zemax.com In this tutorial, you will
More informationHelp Manual. LensMechanix for Creo.
Help Manual LensMechanix for Creo www.zemax.com/lmx/ Sales@zemax.com Support@zemax.com Getting started Introduction to LensMechanix LensMechanix is a Creo extension by Zemax that simplifies optomechanical
More informationRoadmap Presentation. European User Group Symposium - March Zemax
Roadmap Presentation European User Group Symposium - March 2018 Zemax 2018 1 Hello! I m Kristen Norton OpticStudio Product Manager Previously Sr Optical Engineer at Zemax Laser & Optics Engineer building
More informationSimplify optomechanical design
Simplify optomechanical design LensMechanix allows me to focus on a great design and spend less time explaining it. Our mechanical engineers love designing optomechanical products in LensMechanix. Robert
More informationStructural Thermal Optical Performance (STOP)
Structural Thermal Optical Performance (STOP) Outline Purpose of STOP Current workflow (as we understand it) Our proposed solution Benchmarking Next steps 2 Purpose of STOP (Taken from https://tfaws.nasa.gov/files/tfaws2015-sc-stop-analysis.pdf)
More informationHelp Manual. for LensMechanix version
Help Manual for LensMechanix version 4.0 www.zemax.com/lmx/ Sales@zemax.com LMxSupport@zemax.com Contents What s new in LensMechanix 4.0 Enabled a Power Throughput calculation to gauge the efficiency of
More informationHelp Manual. for LensMechanix version
Help Manual for LensMechanix version 3.2 www.zemax.com/lmx/ Sales@zemax.com LMxSupport@zemax.com Contents What s new in LensMechanix 3.2 Enabled beam clipping and image contamination measurements for optical
More informationHelp Manual. for LensMechanix version 2.4. LensMechanix Help is kept up to date with new content at
Help Manual for LensMechanix version 2.4 LensMechanix Help is kept up to date with new content at http://www.zemax.com/lmx/resources/learn. www.zemax.com/lmx/ Sales@zemax.com LMxSupport@zemax.com Contents
More informationSpeeding Designs to Market with Zemax Virtual Prototyping. New Business Development Manager
Speeding Designs to Market with Zemax Virtual Prototyping Samuel Milns Chris Normanshire New Business Development Manager Engineering Services Manager, Europe Agenda What is Zemax Virtual Prototyping?
More informationSimplify optomechanical design
Simplify optomechanical design Overview Design new products A SOLIDWORKS Certified Gold Partner allows me to focus on a great design and spend less time explaining it. Our mechanical engineers love designing
More information18.7 Release Notes August 14th, 2018
18.7 Release Notes August 14 th, 2018 CONTENTS 1 Usability... 3 1.1 Improved Graphic Export (All editions)... 3 1.2 Express View (All editions)... 4 1.3 Zemax File Collector (All editions)... 5 1.4 Pop-out
More informationDESIGNING A SIMPLE OPTICAL SYSTEM IN LIGHTTOOLS
DESIGNING A SIMPLE OPTICAL SYSTEM IN LIGHTTOOLS Liliana Ruiz Diaz December 08, 2016 College of Optical Sciences, University of Arizona, Tucson, AZ USA 85721 WHAT IS LIGHTTOOLS LightTools is a 3D optical
More informationRay Tracing. Lens Design OPTI 517. Prof. Jose Sasian
Ray Tracing Lens Design OPTI 517 Use of rays In optical design In computer graphics In acoustics In art In photography Lens design ray-tracing Ray tracing universe Ray tracing It is important to have
More informationLens Design I. Lecture 1: Basics Herbert Gross. Summer term
Lens Design I Lecture 1: Basics 2015-04-04 Herbert Gross Summer term 2016 www.iap.uni-jena.de 2 Preliminary Schedule 1 04.04. Basics 2 11.04. Properties of optical systems I 3 18.04. 4 25.04. Properties
More informationWho s afraid of freeform optics? * Webinar 17 January 2018
Who s afraid of freeform optics? * Webinar 17 January 2018 Outline About the presenters Spectrum Scientific, Inc. (SSI) Challenges of using freeform optics How to use freeform optics Low cost replicas
More informationFeature Map. Work the way you want, faster, easier... with the same Zemax reliability. RIBBONS / EDITORS
Feature Map Feature Map Work the way you want, faster, easier... with the same Zemax reliability. Zemax brings a new level of productivity to optics simulation software with OpticStudio14. Built on Zemax
More informationLens Design I. Lecture 4: Properties of optical systems III Herbert Gross. Summer term
Lens Design I Lecture 4: Properties of optical systems III 018-05-03 Herbert Gross Summer term 018 www.iap.uni-jena.de Preliminary Schedule - Lens Design I 018 1 1.04. Basics 19.04. Properties of optical
More informationFRESNEL LENS. Examples. RepTile Examples CHAPTER 9. Fresnel lens. RepTile Examples
CHAPTER 9 FRESNEL LENS RepTile Examples Examples RepTile Examples Expert In general, the steps involved in using RepTile surfaces consist of first creating a RepTile surface property within TracePro and
More informationHow to Use the Luminit LSD Scatter Model
How to Use the Luminit LSD Scatter Model Summary: This article describes the characteristics and use of Luminit s LSD scatter model in OpticStudio. The scatter model presented here is the idealized scatter
More informationFRED Display Application Note
FRED Display Application Note Most displays consist of several optical components. The most important component is the source of light that illuminates the display. All displays need a mechanism to send
More informationLight: Geometric Optics
Light: Geometric Optics 23.1 The Ray Model of Light Light very often travels in straight lines. We represent light using rays, which are straight lines emanating from an object. This is an idealization,
More information18.1 Release Notes January 18th, 2018
18.1 Release Notes January 18 th, 2018 CONTENTS 1 Tools and Analyses... 3 1.1 Convert multiple configurations to non-sequential mode (Professional and Premium editions)... 3 1.2 Convert tolerance data
More informationHarold Brunt Optomechanical Designer, Corporate Officer, VP LumenFlow Corp. Board Member, United Lumen, LLC
6/22/2017 1 Harold Brunt Optomechanical Designer, Corporate Officer, VP LumenFlow Corp. Board Member, United Lumen, LLC LumenFlow Corp. is a Photonics Engineering, Consulting and small manufacturing company
More informationGeometric Optics. The Law of Reflection. Physics Waves & Oscillations 3/20/2016. Spring 2016 Semester Matthew Jones
Physics 42200 Waves & Oscillations Lecture 27 Propagation of Light Hecht, chapter 5 Spring 2016 Semester Matthew Jones Geometric Optics Typical problems in geometric optics: Given an optical system, what
More informationAP Physics: Curved Mirrors and Lenses
The Ray Model of Light Light often travels in straight lines. We represent light using rays, which are straight lines emanating from an object. This is an idealization, but is very useful for geometric
More informationInstall a LensMechanix network license
Install a LensMechanix network license This article explains how to install a network license for LensMechanix. For instructions on how to install a single-user license for LensMechanix, see Activate a
More informationFreeform Monolithic Multi-Surface Telescope Manufacturing NASA Mirror Tech Days 1 November 2016
Freeform Monolithic Multi-Surface Telescope Manufacturing NASA Mirror Tech Days 1 November 2016 Presented By: Joey Lawson, PhD., Todd Blalock Presented By: Freeform Optics Overview Freeforms: Optics that
More informationLight: Geometric Optics (Chapter 23)
Light: Geometric Optics (Chapter 23) Units of Chapter 23 The Ray Model of Light Reflection; Image Formed by a Plane Mirror Formation of Images by Spherical Index of Refraction Refraction: Snell s Law 1
More informationLens Design I. Lecture 3: Properties of optical systems II Herbert Gross. Summer term
Lens Design I Lecture 3: Properties of optical systems II 205-04-27 Herbert Gross Summer term 205 www.iap.uni-jena.de 2 Preliminary Schedule 3.04. Basics 2 20.04. Properties of optical systems I 3 27.05.
More informationArray ray tracing. Array ray tracing 377
Array ray tracing 377 Array ray tracing Regular array There are many applications of lens arrays, ranging from micro-optics switching systems to multiple mirror telescopes. The following example shows
More informationGlobal Surgical cuts product development time with Zemax Virtual Prototyping
CUSTOMER SPOTLIGHT Global Surgical cuts product development time with Zemax Virtual Prototyping Learn how Global Surgical streamlined workflows and produced a successful physical prototype months ahead
More informationLucidShape Procedural Surfaces for Lens and Reflector Applications
WHITE PAPER LucidShape Procedural Surfaces for Lens and Reflector Applications Paper #006-2 Author Peter Sommer Synopsys Abstract State-of-the-art lighting systems in motor vehicles require new geometries
More informationAll Reflective Fly s Eye Illuminators for EUV Lithography
All Reflective Fly s Eye Illuminators for EUV Lithography Blake Crowther, Donald Koch, Joseph Kunick, James McGuire Optical Research Associates Robert Harned, Rick Gontin ASML Presented by Kevin Thompson/
More informationContrast Optimization: A faster and better technique for optimizing on MTF ABSTRACT Keywords: INTRODUCTION THEORY
Contrast Optimization: A faster and better technique for optimizing on MTF Ken Moore, Erin Elliott, Mark Nicholson, Chris Normanshire, Shawn Gay, Jade Aiona Zemax, LLC ABSTRACT Our new Contrast Optimization
More informationLens Design I. Lecture 11: Imaging Herbert Gross. Summer term
Lens Design I Lecture 11: Imaging 2015-06-29 Herbert Gross Summer term 2015 www.iap.uni-jena.de 2 Preliminary Schedule 1 13.04. Basics 2 20.04. Properties of optical systrems I 3 27.05. 4 04.05. Properties
More informationSWING ARM OPTICAL CMM
SWING ARM OPTICAL CMM Peng Su, Chang Jin Oh, Robert E. Parks, James H. Burge College of Optical Sciences University of Arizona, Tucson, AZ 85721 OVERVIEW The swing arm profilometer described in reference
More informationUpdate Guide Release Revised: 07-Dec-2018
Update Guide Release 2018.6 Revised: 07-Dec-2018 Lambda Research Corporation 25 Porter Road Littleton, MA 01460 USA Tel. (+1) 978-486-0766 support@lambdares.com Lambda Research Corporation COPYRIGHT AND
More informationDownStream BluePrint 6.0 Release Notes 11/8/2018
DownStream BluePrint 6.0 Release Notes 11/8/2018 DownStream BluePrint 6.0 Release Notes Build: 1484 Date: 11/8/2018 What s New? This document describes the new features, enhancements and defect fixes in
More informationOptical Design with Zemax
Optical Design with Zemax Lecture 7: Optimization I 2012-12-11 Herbert Gross Winter term 2012 www.iap.uni-jena.de Time schedule 2 1 16.10. Introduction Introduction, Zemax interface, menues, file handling,
More informationDistributed Ray Tracing
CT5510: Computer Graphics Distributed Ray Tracing BOCHANG MOON Distributed Ray Tracing Motivation The classical ray tracing produces very clean images (look fake) Perfect focus Perfect reflections Sharp
More informationMTF Measurement at Proper Conjugates
MTF Measurement at Proper Conjugates David P. Biss, Ph.D. The modulation transfer function (MTF) provides vital information about the imaging performance of an optical system. Measuring the MTF of a lens
More informationRectangular Lenslet Array
Rectangular Lenslet Array INTRODUCTION Lenslet arrays are used in a variety of applications that include beam homogenization. This knowledge base article demonstrates the setup of an imaging lenslet array
More informationLens Design I. Lecture 2: Properties of optical systems I Herbert Gross. Summer term
Lens Design I Lecture 2: Properties of optical systems I 2015-04-20 Herbert Gross Summer term 2015 www.iap.uni-jena.de 2 Preliminary Schedule 1 13.04. Basics 2 20.04. Properties of optical systems I 3
More informationPHYS 202 Notes, Week 9
PHYS 202 Notes, Week 9 Greg Christian March 22 & 24, 206 Last updated: 03/24/206 at 2:23:56 This week we learn about images by mirrors, refraction, and thin lenses. Images Spherical Mirrors First let s
More informationWaves & Oscillations
Physics 42200 Waves & Oscillations Lecture 26 Propagation of Light Hecht, chapter 5 Spring 2015 Semester Matthew Jones Geometric Optics Typical problems in geometric optics: Given an optical system, what
More informationEasy. Practical. Precise. Intraoral camera
Easy. Practical. Precise. Intraoral camera Your best choice intraoral camera Easy to use Practical ergonomics Precise images Practical ergonomics Wide angle of vision The DIGORA Vidi provides exceptionally
More informationHome Lab 7 Refraction, Ray Tracing, and Snell s Law
Home Lab Week 7 Refraction, Ray Tracing, and Snell s Law Home Lab 7 Refraction, Ray Tracing, and Snell s Law Activity 7-1: Snell s Law Objective: Verify Snell s law Materials Included: Laser pointer Cylindrical
More informationOptics Of Contact Lenses
Optics Of Contact Lenses 1 / 6 2 / 6 3 / 6 Optics Of Contact Lenses Manufacturing plastic optics for sensing, imaging, scanning and detecting. We offer a wide variety of plastic aspheric, spherical, collimating,
More informationPerson s Optics Test SSSS
Person s Optics Test SSSS 2017-18 Competitors Names: School Name: All questions are worth one point unless otherwise stated. Show ALL WORK or you may not receive credit. Include correct units whenever
More informationannual report 2011 / 2012 INSTITUT FÜR TECHNISCHE OPTIK UNIVERSITÄT STUTTGART
annual report 2011 / 2012 INSTITUT FÜR TECHNISCHE OPTIK UNIVERSITÄT STUTTGART INSTITUT FÜR TECHNISCHE OPTIK UNIVERSITÄT STUTTGART Prof. Dr. W. Osten Pfaffenwaldring 9 D-70569 Stuttgart Tel.: +49(0)711
More informationRendering Part I (Basics & Ray tracing) Lecture 25 December 1, 2015
Rendering Part I (Basics & Ray tracing) Lecture 25 December 1, 2015 What is rendering? Generating an image from a 3D scene model Ingredients Representation of 3D geometry Specification for camera & lights
More informationAP* Optics Free Response Questions
AP* Optics Free Response Questions 1978 Q5 MIRRORS An object 6 centimeters high is placed 30 centimeters from a concave mirror of focal length 10 centimeters as shown above. (a) On the diagram above, locate
More informationSynopsis: Location of mechanical features in lens mounts by P. Yoder
Synopsis: Location of mechanical features in lens mounts by P. Yoder Jeff Wilson Abstract: Glass to metal mechanical lens mounting can be accomplished by understanding the interface between the lens and
More informationGetting Started Using ZEMAX
Getting Started Using ZEMAX Version 2.1 Table of Contents 1 ABOUT THIS GUIDE... 3 2 INSTALLING ZEMAX... 4 2.1 INSTALLING THE KEY DRIVER... 4 2.2 INSTALLING RZ PREREQUISITES... 4 2.3 INSTALLING ZEMAX...
More informationLIGHT. Speed of light Law of Reflection Refraction Snell s Law Mirrors Lenses
LIGHT Speed of light Law of Reflection Refraction Snell s Law Mirrors Lenses Light = Electromagnetic Wave Requires No Medium to Travel Oscillating Electric and Magnetic Field Travel at the speed of light
More informationCS 4620 Midterm 1. Tuesday 22 October minutes
CS 4620 Midterm 1 Tuesday 22 October 2013 90 minutes Problem 1: Transformations (20 pts) Consider the affine transformation on R 3 defined in homogeneous coordinates by the matrix: 1 M = 1 0 0 2 0 1 0
More informationOptical Design with Zemax
Optical Design with Zemax Lecture 10: Advanced handling II 2014-06-20 Herbert Gross Sommer term 2014 www.iap.uni-jena.de 2 Preliminary Schedule 1 11.04. Introduction 2 25.04. Properties of optical systems
More informationIRRADIANCE DISTRIBUTION OF IMAGE SURFACE IN MICROLENS ARRAY SOLAR CONCENTRATOR
IRRADIANCE DISTRIBUTION OF IMAGE SURFACE IN MICROLENS ARRAY SOLAR CONCENTRATOR Ali H. Al-Hamdani 1, Hayfa G. Rashid 2 and Alaa B. Hasan 3 1 Department of Laser and Optoelectronics Engineering, University
More informationWinLens 3D Optical Design Software Tilts & Decenters
WinLens 3D Optical Design Software Tilts & Decenters A Product of LINOS Photonics GmbH Königsallee 23 D - 37081 Göttingen Germany www.linos.de / www.winlens.de Summary WinLens 3D is a very significant
More informationLecture Outline Chapter 26. Physics, 4 th Edition James S. Walker. Copyright 2010 Pearson Education, Inc.
Lecture Outline Chapter 26 Physics, 4 th Edition James S. Walker Chapter 26 Geometrical Optics Units of Chapter 26 The Reflection of Light Forming Images with a Plane Mirror Spherical Mirrors Ray Tracing
More informationVirtual and Mixed Reality > Near-Eye Displays. Simulation of Waveguide System containing a Complex 2D Exit Pupil Expansion
Virtual and Mixed Reality > Near-Eye Displays Simulation of Waveguide System containing a Complex 2D Exit Pupil Expansion Task/System Illustration? intensity at output of waveguide eye model? intensity
More informationLens Design I. Lecture 2: Properties of optical systems I Herbert Gross. Summer term
Lens Design I Lecture 2: Properties of optical systems I 2018-04-19 Herbert Gross Summer term 2018 www.iap.uni-jena.de 2 Preliminary Schedule - Lens Design I 2018 1 12.04. Basics 2 19.04. Properties of
More informationACCELERATOR LENS ADAPTER
ACCELERATOR LENS ADAPTER User Manual LAG-MFT-NF Nikon F-Mount to Micro Four Thirds THANK YOU FOR CHOOSING VELLO The Vello Accelerator Lens Adapter is for attaching Nikon F-Mount lenses to Micro Four Thirds
More informationNull test for a highly paraboloidal mirror
Null test for a highly paraboloidal mirror Taehee Kim, James H. Burge, Yunwoo Lee, and Sungsik Kim A circular null computer-generated hologram CGH was used to test a highly paraboloidal mirror diameter,
More informationFHS SERIES LENSES for LUXEON TM LEDs: LUXEON I, III, and V, STAR and EMITTER. High efficiency Available in 4 different beams Patent Pending
FHS SERIES LENSES for LUXEON TM : LUXEON I, III, and V, STAR and EMITTER High efficiency Available in 4 different beams Patent Pending The FHS series offers a complete range of lenses especially designed
More information(Goal 3) (Goal 3) (Goals 4 and 5) (Goals 4 and 5)
10 This thesis addresses the measurement of geometrical properties (surface geometry, tilt and decentration) of the crystalline lens in normal eyes, and their changes with accommodation. In addition, it
More informationOnline Quick Start Guide January 2018
Online Quick Start Guide January 2018 Contents 1. Activate your OpticStudio Online account... 2 2. Start a session... 2 3. Navigate your session... 3 4. Stay connected... 4 5. Save files and end your session...
More informationMeet Your Augmented and Virtual Reality Challenges Head-On: Design Your Next System with 2D-Q Freeforms in CODE V
WHITE PAPER Meet Your Augmented and Virtual Reality Challenges Head-On: Design Your Next System with 2D-Q Freeforms in CODE V Author Matt Novak, Ph.D. CODE V Sr. Customer Applications Engineer, Synopsys
More informationLight & Optical Systems Reflection & Refraction. Notes
Light & Optical Systems Reflection & Refraction Notes What is light? Light is electromagnetic radiation Ultra-violet + visible + infra-red Behavior of Light Light behaves in 2 ways particles (photons)
More informationFHS LENSES SERIES. High efficiency. Available in 4 different beams. Patent Pending. The FHS series offers a complete range of lenses TM
High efficiency Available in 4 different beams Patent Pending The FHS series offers a complete range of lenses specially designed for the LUXEON LED from (1) Lumileds. Both Batwing and Lambertian LUXEON
More informationGeometrical Optics. Name ID TA. Partners. Date Section. Please do not scratch, polish or touch the surface of the mirror.
Geometrical Optics Name ID TA Partners Date Section Please do not scratch, polish or touch the surface of the mirror. 1. Application of geometrical optics: 2. Real and virtual images: One easy method to
More informationRefraction of Light. light ray. rectangular plastic slab. normal rectangular slab
Refraction of Light light ray light box single slit rectangular plastic slab What is the light path for a ray aligned with the normal? What is the light path for rays not aligned with the normal? light
More informationChapter 32 Light: Reflection and Refraction. Copyright 2009 Pearson Education, Inc.
Chapter 32 Light: Reflection and Refraction Units of Chapter 32 The Ray Model of Light Reflection; Image Formation by a Plane Mirror Formation of Images by Spherical Mirrors Index of Refraction Refraction:
More informationLight: Geometric Optics
Light: Geometric Optics The Ray Model of Light Light very often travels in straight lines. We represent light using rays, which are straight lines emanating from an object. This is an idealization, but
More informationDispersion (23.5) Neil Alberding (SFU Physics) Physics 121: Optics, Electricity & Magnetism Spring / 17
Neil Alberding (SFU Physics) Physics 121: Optics, Electricity & Magnetism Spring 2010 1 / 17 Dispersion (23.5) The speed of light in a material depends on its wavelength White light is a mixture of wavelengths
More informationLecture PowerPoint. Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli
Lecture PowerPoint Chapter 25 Physics: Principles with Applications, 6 th edition Giancoli 2005 Pearson Prentice Hall This work is protected by United States copyright laws and is provided solely for the
More informationCS 4620 Midterm, March 21, 2017
CS 460 Midterm, March 1, 017 This 90-minute exam has 4 questions worth a total of 100 points. Use the back of the pages if you need more space. Academic Integrity is expected of all students of Cornell
More informationOptomechanical design software for segmented mirrors
Optomechanical design software for segmented mirrors Juan Marrero*, European Southern Observatory (ESO) ABSTRACT The software package presented in this paper, still under development, was born to help
More informationOptical Design with Zemax for PhD - Basics
Optical Design with Zemax for PhD - Basics Lecture 8: Advanced handling 2013-06-27 Herbert Gross Summer term 2013 www.iap.uni-jena.de 2 Preliminary Schedule No Date Subject Detailed content 1 02.05. Introduction
More informationDocument Number: SC2/FTS/OPT/002
SCUBA-2 FTS Project Office University of Lethbridge Physics Department 4401 University Drive Lethbridge, Alberta CANADA T1K 3M4 Tel: 1-403-329-2771 Fax: 1-403-329-2057 Email: brad.gom@uleth.ca WWW: http://research.uleth.ca/scuba2/
More informationImage Formed by a Plane Mirror. point object A, source of light
Today s agenda: Plane Mirrors. You must be able to draw ray diagrams for plane mirrors, and be able to calculate image and object heights, distances, and magnifications. Spherical Mirrors: concave and
More informationHolojackets. Semester Update: Fall 2017 December 4, 2017
Holojackets Semester Update: Fall 2017 December 4, 2017 Agenda Team Focus Problem Statement Background Research Team Structure Progress Conclusion/Project Plan 2 Team Focus Prototype 3D displays that allow
More informationZEISS Lenses for 24 x 36 mm area sensors and 43 mm line scan
General Features Precise manual focusing Robust full-metal construction Identical color reproduction of all models For industrial cameras up to sensor sizes of 24x36 mm or 43mm line sensors. ZF-I: Industrial
More informationElectronic angle measuring machine. Angle/position by means of vignetting
OPTIK MESS- UND PRÜFTECHNIK VERTRIEB BERATUNG TRAINING ELWIMAT Electronic angle measuring machine WiPoVi Angle/position by means of vignetting Biaxial optical angle measuring with great measuring range
More informationGeneral Physics II. Mirrors & Lenses
General Physics II Mirrors & Lenses Nothing New! For the next several lectures we will be studying geometrical optics. You already know the fundamentals of what is going on!!! Reflection: θ 1 = θ r incident
More informationLEICA VARIO-ELMAR-TL mm f/ ASPH.
Technical data. Illustration 1:1 Lens Leica Vario-Elmar-TL 18 56 mm f/3.5 5.6 ASPH. Order no. 11 Compatible cameras Field angle (diagonal, horizontal, vertical) Leica T (Typ 71), Leica SL (Typ 1), Leica
More informationPHYSICS. Chapter 34 Lecture FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E RANDALL D. KNIGHT
PHYSICS FOR SCIENTISTS AND ENGINEERS A STRATEGIC APPROACH 4/E Chapter 34 Lecture RANDALL D. KNIGHT Chapter 34 Ray Optics IN THIS CHAPTER, you will learn about and apply the ray model of light Slide 34-2
More informationCoupling FEA Analysis and Solid Model Ray Tracing to look at Focal Plane Deformations
Coupling FEA Analysis and Solid Model Ray Tracing to look at Focal Plane Deformations By Tom Brokaw OPTI 521 Tutorial Model of a 5 foot diameter solar collector (F1 parabola), a 1 ft diameter receiver
More informationCamera Calibration for Video See-Through Head-Mounted Display. Abstract. 1.0 Introduction. Mike Bajura July 7, 1993
Camera Calibration for Video See-Through Head-Mounted Display Mike Bajura July 7, 1993 Abstract This report describes a method for computing the parameters needed to model a television camera for video
More informationFC Lens series for Cree XLamp 7090 XR and XR-E LEDs
FC Lens series for Cree XLamp 7090 XR and XR-E LEDs High efficiency 4 beams available Easy assembly The FC lens offers low-profile lenses specifically designed for the XLamp 7090XR and XR-E LEDs (1) from
More informationGeometric Field Tracing through an Off- Axis Parabolic Mirror
UseCase.0077 (1.0) Geometric Field Tracing through an Off- Axis Parabolic Mirror Keywords: focus, geometric field tracing, diffractive field tracing Description This use case explains the usage of the
More information