Senior Optical Engineer

Slides:

Advertisements

Similar presentations

TWO STEP EQUATIONS 1. SOLVE FOR X 2. DO THE ADDITION STEP FIRST

Advertisements

You have been given a mission and a code. Use the code to complete the mission and you will save the world from obliteration…

Advanced Piloting Cruise Plot.

Feichter_DPG-SYKL03_Bild-01. Feichter_DPG-SYKL03_Bild-02.

Copyright © 2003 Pearson Education, Inc. Slide 1 Computer Systems Organization & Architecture Chapters 8-12 John D. Carpinelli.

Chapter 1 The Study of Body Function Image PowerPoint

Copyright © 2011, Elsevier Inc. All rights reserved. Chapter 5 Author: Julia Richards and R. Scott Hawley.

Copyright © 2011, Elsevier Inc. All rights reserved. Chapter 6 Author: Julia Richards and R. Scott Hawley.

1 Copyright © 2013 Elsevier Inc. All rights reserved. Appendix 01.

1 Copyright © 2010, Elsevier Inc. All rights Reserved Fig 2.1 Chapter 2.

1 Copyright © 2013 Elsevier Inc. All rights reserved. Chapter 38.

By D. Fisher Geometric Transformations. Reflection, Rotation, or Translation 1.

Chapter 1 Image Slides Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.

Business Transaction Management Software for Application Coordination 1 Business Processes and Coordination.

/4/2010 Box and Whisker Plots Objective: Learn how to read and draw box and whisker plots Starter: Order these numbers.

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Jeopardy Q 1 Q 6 Q 11 Q 16 Q 21 Q 2 Q 7 Q 12 Q 17 Q 22 Q 3 Q 8 Q 13

Title Subtitle.

My Alphabet Book abcdefghijklm nopqrstuvwxyz.

2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt 2 pt 3 pt 4 pt 5 pt 1 pt Time Money AdditionSubtraction.

DIVIDING INTEGERS 1. IF THE SIGNS ARE THE SAME THE ANSWER IS POSITIVE 2. IF THE SIGNS ARE DIFFERENT THE ANSWER IS NEGATIVE.

SUBTRACTING INTEGERS 1. CHANGE THE SUBTRACTION SIGN TO ADDITION

FACTORING ax2 + bx + c Think “unfoil” Work down, Show all steps.

Year 6 mental test 5 second questions

Year 6 mental test 10 second questions

Around the World AdditionSubtraction MultiplicationDivision AdditionSubtraction MultiplicationDivision.

Learning to show the remainder

Break Time Remaining 10:00.

PP Test Review Sections 6-1 to 6-6

ABC Technology Project

15. Oktober Oktober Oktober 2012.

Copyright © 2012, Elsevier Inc. All rights Reserved. 1 Chapter 7 Modeling Structure with Blocks.

Factor P 16 8(8-5ab) 4(d² + 4) 3rs(2r – s) 15cd(1 + 2cd) 8(4a² + 3b²)

Squares and Square Root WALK. Solve each problem REVIEW:

Basel-ICU-Journal Challenge18/20/ Basel-ICU-Journal Challenge8/20/2014.

We are learning how to read the 24 hour clock

Do you have the Maths Factor?. Maths Can you beat this term’s Maths Challenge?

© 2012 National Heart Foundation of Australia. Slide 2.

Lets play bingo!!. Calculate: MEAN Calculate: MEDIAN

LO: Count up to 100 objects by grouping them and counting in 5s 10s and 2s. Mrs Criddle: Westfield Middle School.

1 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt 10 pt 15 pt 20 pt 25 pt 5 pt Synthetic.

Chapter 5 Test Review Sections 5-1 through 5-4.

GG Consulting, LLC I-SUITE. Source: TEA SHARS Frequently asked questions 2.

Addition 1’s to 20.

25 seconds left…...

H to shape fully developed personality to shape fully developed personality for successful application in life for successful.

We will resume in: 25 Minutes.

©Brooks/Cole, 2001 Chapter 12 Derived Types-- Enumerated, Structure and Union.

Essential Cell Biology

Clock will move after 1 minute

Intracellular Compartments and Transport

PSSA Preparation.

Essential Cell Biology

Physics for Scientists & Engineers, 3rd Edition

How Cells Obtain Energy from Food

Energy Generation in Mitochondria and Chlorplasts

Select a time to count down from the clock above

Murach’s OS/390 and z/OS JCLChapter 16, Slide 1 © 2002, Mike Murach & Associates, Inc.

Senior Optical Engineer

Presentation transcript:

Senior Optical Engineer Practical Knowledge of Vacuum Windows Rev. 1.1 Oli Durney Senior Optical Engineer Steward Observatory University of Arizona

Typical Geometry Ambient Space Mounting Bolt Window Flange O-ring Seal Cryostat Case Cryostat Case Vacuum Space

Example: O-ring Seal

Example: Indium Seal

Window Support Case 1: Simply Supported Pressure Lateral translation k = 1.24 k1 = 0.696 Case 2: Rigidly Fixed Pressure k = 0.75 No Lateral translation k1 = 1.71

O-ring Groove Window Force Light coating of Apiezon vacuum grease L or M ~20% 0.139” Cryostat Case Cryostat Case O-ring (2-240) 0.105” Compressed O-ring 0.150”

Strength of Material Strength S.F. = Stress Rule of Thumb: Safety Factor = 10 Use reference book to get strength of material [in PSI] Normally the Modulus of Rupture (MOR) is used Safety Factor is: Strength S.F. = Stress Solve for Stress

Maximum Stress w R2 Sm = k t2 Solve for t Outside Pressure = Atm = 760 Torr = 14.7 PSI Inside Pressure = 10E-6 Torr ~ 0 PSI Stress of the Window: w R2 Sm = k t2 k = coefficient k for circular plates w = uniform pressure across window (outside P – inside P) R = radius of Clear Aperture of window t = thickness of window Solve for t

Maximum Defection ym = k1 E t3 w R4 Solve for t Window ‘bowing’ can affect optical design Deflection causes plano window to have power, thus creating a meniscus lens Optical design will govern amount of deflection (sag) allowable If window is Simply Supported and O-ring does not compress fully: ym = k1 E t3 w R4 k1 = coefficient k1 for circular plates w = uniform pressure across window (outside P – inside P) R = radius of Clear Aperture of window E = Young’s modulus t = thickness of window Solve for t

Rules of Thumb Typical k value for stress calculation used in practice is 1.00 Reasonable (and typical) material choice for NIR waveband is Fused Silica or BK7 Fused Silica: Young’s modulus = 1.06E+07 PSI Modulus of Rupture = 7600 PSI BK7: Young’s modulus = 1.19E+07 PSI Modulus of Rupture = 2400 PSI k1 for deflection calculations vary from 0.696 to 0.171 depending on whether window is constrained by Case 1 or 2 Typically use 0.43 O-ring types: Buna-N has highest permeation and retains water Viton has lowest permeation and minimal water retention

Real World Example

LBTI UBC Vacuum windows Gate valve windows

Window Specs Lower Gate Valve Window Upper Gate Valve Windows Material: BK7 or Fused Silica Diameter: 101.8mm +0.00 / -0.25mm Thickness: 6.35mm +/- 0.25mm Wavefront: 1/4 wave across CA Clear Aperture: > 80% diameter Parallelism: < 1 arcmin Surface Quality: 20-10 Upper Gate Valve Windows Material: BK7 or Fused Silica Diameter: 137.5mm +0.00 / -0.10mm Thickness: 8.0mm +/- 0.10mm Wavefront: 1/4 wave across CA Clear Aperture: > 85% diameter Parallelism: < 30 arcsec Surface Quality: 40-20

Window Detail for Lower

Window Detail for Upper

Max Stress Maximum Stress: (Lower Gate Valve Window) Sm = k t2 w R2 = (14.7PSI)*(46.05mm)2 (6.35mm)2 (1) ~ 773 PSI Maximum Stress: (Upper Gate Valve Window) Sm = k t2 w R2 = (14.7PSI)*(65mm)2 (8mm)2 (1) ~ 970 PSI

Calculations for BK7 Safety Factor: (Lower Gate Valve Window) S.F. = Max Stress Modulus of Rupture = 773 2400 = 3.1 Safety Factor: (Upper Gate Valve Window) S.F. = Max Stress Modulus of Rupture = 970 2400 = 2.5

Calculations for BK7 Maximum Deflection: (Lower Gate Valve Window) w R4 (14.7PSI)*(46.05mm)4 ym = k1 = (0.43) ~ 0.009 mm E t3 (1.19E7PSI)*(6.35mm)3 Maximum Deflection: (Upper Gate Valve Window) w R4 (14.7PSI)*(65mm)4 ym = k1 = (0.43) ~ 0.019 mm E t3 (1.19E7PSI)*(8mm)3

Calculations for F.S. Safety Factor: (Lower Gate Valve Window) S.F. = Max Stress Modulus of Rupture = 773 7600 = 9.8 Safety Factor: (Upper Gate Valve Window) S.F. = Max Stress Modulus of Rupture = 970 7600 = 7.8

Calculations for F.S. Maximum Deflection: (Lower Gate Valve Window) w R4 (14.7PSI)*(46.05mm)4 ym = k1 = (0.43) ~ 0.010 mm E t3 (1.06E7PSI)*(6.35mm)3 Maximum Deflection: (Upper Gate Valve Window) w R4 (14.7PSI)*(65mm)4 ym = k1 = (0.43) ~ 0.021 mm E t3 (1.06E7PSI)*(8mm)3

Conclusions Young’s Modulus Max Deflection Modulus of Rupture Max Stress Safety Factor Lower BK7 1.19E+07 0.009 2400 773 3.1 Fused Silica 1.06E+07 0.010 7600 9.8 Upper 0.019 970 2.5 0.021 7.8

Window using O-ring Seal Figure 1: O-ring style vacuum window Figure 2: LN2 Cryostat

Window using Indium Seal Figure 3: Indium style vacuum window Figure 4: Balloon Cryostat

Other Examples