Presentation is loading. Please wait.

Presentation is loading. Please wait.

1 Shield and Fold Mirror Dimensions Michael Sholl 3 February 2005 MODIFIED by Robin Lafever 23 Feb 2005.

PublishAnnabella Carpenter Modified over 9 years ago

Similar presentations

Presentation on theme: "1 Shield and Fold Mirror Dimensions Michael Sholl 3 February 2005 MODIFIED by Robin Lafever 23 Feb 2005."— Presentation transcript:

1 1 Shield and Fold Mirror Dimensions Michael Sholl 3 February 2005 MODIFIED by Robin Lafever 23 Feb 2005

2 2Caution Final dimensions will live in configuration controlled drawings of shield and mirrors Purpose of this presentation is to provide starting point for mechanical designs Tom Diehl (FNAL) is in charge of final shield thickness Stray light/optics controls inner and outer light path clearance of shield

3 3 Area of Interest Area is tightly packed ~3mm clearance between shield and FM minimum Because focal plane array is rotated 45deg, sharp edge may be cut back before coating and polishing mirrror ROF requires fiber feed and clearance Shield pulled back 20mm from corner of extreme detector Stray light from incoming starlight does not reach inner shield wall, due to Cassegrain baffle Stray light reflected off detector, scattered off Z302 coated wall expected to be <0.001photons/s/pixel worst case (8 th magnitude star)

4 4Dimensions

5 5Dimensions

6 6 Diamond pattern

7 7 Square pattern

8 8 Backward Raytrace to FM

9 9 Concept 1: Right-angle bend Modular, removable ROF, attached with M3 fasteners Opposite end of ROF illuminated Ball lens reduces divergence of fiber output Right-angle mirror Cylindrical lens concentrates light on Spectralon surface

10 10 Concept 2: Lower surface white Modular, removable ROF, attached with M3 fasteners Near end of ROF illuminated by nearby fiber Spectralon surface parallel to focal plane Cylindrical lens concentrates light on ROF

11 11 Will this fit? Cyan surface is ROF location Clearance exists

12 12Conclusions Use these dimensions as starting point for mechanical design Final dimensions will live in machine drawings of parts The internal iris, focal surface and FM clear aperture are defined in 00008- MW02 (Telescope Specification) Space exists for removable ROF designs Tom Diehl has final word on shield thickness

Download ppt "1 Shield and Fold Mirror Dimensions Michael Sholl 3 February 2005 MODIFIED by Robin Lafever 23 Feb 2005."

Similar presentations

Telescopes By Mr. King. Tube Stand Tube Stand eyepiece.

Telescopes By Mr. King. Tube Stand Tube Stand eyepiece.
Mirror and Lens by Rifki Irawan. a surface, such as polished metal or glass coated with a metal film, that reflects light without diffusion and produces.

Mirror and Lens by Rifki Irawan. a surface, such as polished metal or glass coated with a metal film, that reflects light without diffusion and produces.
Chapter 23.

Chapter 23.
TMA-65 Workup Robin Lafever 30 April 20041 Detector geometry.

TMA-65 Workup Robin Lafever 30 April Detector geometry.
Foundations of Physics

Foundations of Physics
PACS IIDR 01/02 Mar 2001 Baffle and Straylight1 D. Kampf KAYSER-THREDE.

PACS IIDR 01/02 Mar 2001 Baffle and Straylight1 D. Kampf KAYSER-THREDE.
SPHERICAL MIRRORS Free powerpoints at

SPHERICAL MIRRORS Free powerpoints at
Chapter 18 Mirrors & Lenses. Calculate the angle of total internal reflection in ignoramium (n = 4.0)

Chapter 18 Mirrors & Lenses. Calculate the angle of total internal reflection in ignoramium (n = 4.0)
2 nd & 3 th N.U.T.S. Workshops Gulu University Naples FEDERICO II University 3 – Imaging (thin lenses and spherical mirrors)

2 nd & 3 th N.U.T.S. Workshops Gulu University Naples FEDERICO II University 3 – Imaging (thin lenses and spherical mirrors)
Welcome to Optics JEOPARDY PHysics Final Jeopardy Question Reflection Mirrors 100 Lens 500 400 300 200 100 200 300 400 500 refraction Special topics.

Welcome to Optics JEOPARDY PHysics Final Jeopardy Question Reflection Mirrors 100 Lens refraction Special topics.
Copyright © 2008 Pearson Education Inc., publishing as Pearson Addison-Wesley PowerPoint ® Lectures for University Physics, Twelfth Edition – Hugh D. Young.

Copyright © 2008 Pearson Education Inc., publishing as Pearson Addison-Wesley PowerPoint ® Lectures for University Physics, Twelfth Edition – Hugh D. Young.
1. In a series RLC circuit, what quantity is maximum at resonance and why? A.The voltage B.The current C.The impedance D.The phase 2.The magnitude of the.

1. In a series RLC circuit, what quantity is maximum at resonance and why? A.The voltage B.The current C.The impedance D.The phase 2.The magnitude of the.
Polishing the Ferrules Howard Budd Sep 13 2007. Polishing Epoxy on the Ferrule We glued fibers in the 10 ferrules that Dave Warner gave us One problem.

Polishing the Ferrules Howard Budd Sep Polishing Epoxy on the Ferrule We glued fibers in the 10 ferrules that Dave Warner gave us One problem.
1. In a series RLC circuit, what quantity is maximum at resonance and why? A.The voltage B.The current C.The impedance D.The phase 2.The magnitude of the.

1. In a series RLC circuit, what quantity is maximum at resonance and why? A.The voltage B.The current C.The impedance D.The phase 2.The magnitude of the.
E-  identification 1. Reminder from previous presentations, questions, remarks 2. Čerenkov option 3. Study of several optical configurations 4. Conclusions.

E-  identification 1. Reminder from previous presentations, questions, remarks 2. Čerenkov option 3. Study of several optical configurations 4. Conclusions.
Manufacturing a Telescope. Input A telescope consists of an optical system (the lenses and/or mirrors) and hardware components to hold the optical system.

Manufacturing a Telescope. Input A telescope consists of an optical system (the lenses and/or mirrors) and hardware components to hold the optical system.
Dennis C. Evans p1 SuperNova/Acceleration Probe 16 November 2001 Optical Analysis & Stray Light Evaluation Optical Analysis and Stray Light Evaluation.

Dennis C. Evans p1 SuperNova/Acceleration Probe 16 November 2001 Optical Analysis & Stray Light Evaluation Optical Analysis and Stray Light Evaluation.
 Mirrors that are formed from a section of a sphere.  Convex: The reflection takes place on the outer surface of the spherical shape  Concave: The.

 Mirrors that are formed from a section of a sphere.  Convex: The reflection takes place on the outer surface of the spherical shape  Concave: The.
Mirrors & Reflection.

Mirrors & Reflection.
Chapter 15.1 Announcements:

Chapter 15.1 Announcements:

Similar presentations

Ads by Google