Presentation is loading. Please wait.

Presentation is loading. Please wait.

Strained superlattice with and without DBR From Wikipedia, the free encyclopedia A distributed Bragg reflector (DBR) is a reflector used in waveguides,

Published byStella Thomas Modified over 8 years ago

Similar presentations

Presentation on theme: "Strained superlattice with and without DBR From Wikipedia, the free encyclopedia A distributed Bragg reflector (DBR) is a reflector used in waveguides,"— Presentation transcript:

1 Strained superlattice with and without DBR From Wikipedia, the free encyclopedia A distributed Bragg reflector (DBR) is a reflector used in waveguides, such as optical fibers. It is a structure formed from multiple layers of alternating materials with varying refractive index, or by periodic variation of some characteristic (such as height) of a dielectric waveguide, resulting in periodic variation in the effective refractive index in the guide.reflectorwaveguidesoptical fibersrefractive index Each layer boundary causes a partial reflection of an optical wave. For waves whose wavelength is close to four times the optical thickness of the layers, the many reflections combine with constructive interference, and the layers act as a high-quality reflector.wavelengthoptical thicknessconstructive interference Hope to enhance QE in SSL photocathodes, while maintaining high polarization

2 DBR photocathode results

3 DBR QE: micro-Mott vs. H1 chamber

4 Effect of heating on polarization

5 Analyzing power

6 Standard SSL formula

7 Conclusions QE in micro-Mott slightly lower than in H1 chamber (load-locked system makes changing cathodes much easier though) DBR polarization excellent – comparable to best cathodes we’ve seen DBR enhancement is at wavelength where polarization isn’t maximum. Standard cathode has thus far yielded poor QE – our fault or the cathode? (working to resolve)

8 Full pile data sets, 75102 DBR

Download ppt "Strained superlattice with and without DBR From Wikipedia, the free encyclopedia A distributed Bragg reflector (DBR) is a reflector used in waveguides,"

Similar presentations

Interference in Thin Films

Interference in Thin Films
G6 Thin-film InterferenceG6 Thin-film Interference.

G6 Thin-film InterferenceG6 Thin-film Interference.
Thin Film Interference

Thin Film Interference
Plane wave reflection and transmission

Plane wave reflection and transmission
Wave Nature of Light  Refraction  Interference  Young’s double slit experiment  Diffraction  Single slit diffraction  Diffraction grating.

Wave Nature of Light  Refraction  Interference  Young’s double slit experiment  Diffraction  Single slit diffraction  Diffraction grating.
Waveguides Part 2 Rectangular Waveguides Dielectric Waveguide

Waveguides Part 2 Rectangular Waveguides Dielectric Waveguide
Notes 12 ECE 5317-6351 Microwave Engineering Fall 2011 1 Surface Waves Prof. David R. Jackson Dept. of ECE Fall 2011.

Notes 12 ECE Microwave Engineering Fall Surface Waves Prof. David R. Jackson Dept. of ECE Fall 2011.
University of Baghdad college of engineering electronics & comm.dept. Optical fiber as pressure senor Student name: Zaianb Raad.

University of Baghdad college of engineering electronics & comm.dept. Optical fiber as pressure senor Student name: Zaianb Raad.
AP Physics Mr. Jean March 30 th, 2012. The plan: Review of slit patterns & interference of light particles. Quest Assignment #2 Polarizer More interference.

AP Physics Mr. Jean March 30 th, The plan: Review of slit patterns & interference of light particles. Quest Assignment #2 Polarizer More interference.
Chapter 24 Wave Optics.

Chapter 24 Wave Optics.
Fig. 34-5 Reflection and refraction for the case where n a < n b. glassair © 2003 J. F. Becker San Jose State University Physics 52 Heat and Optics.

Fig Reflection and refraction for the case where n a < n b. glassair © 2003 J. F. Becker San Jose State University Physics 52 Heat and Optics.
Properties of Multilayer Optics An Investigation of Methods of Polarization Analysis for the ICS Experiment at UCLA 8/4/04 Oliver Williams.

Properties of Multilayer Optics An Investigation of Methods of Polarization Analysis for the ICS Experiment at UCLA 8/4/04 Oliver Williams.
1 Improvements in the QE of photocathodes Peter Townsend University of Sussex Brighton BN1 9QH, UK.

1 Improvements in the QE of photocathodes Peter Townsend University of Sussex Brighton BN1 9QH, UK.
16.711 Lecture 4 Optical fibers Last Lecture Fiber modes Fiber Losses Dispersion in single-mode fibers Dispersion induced limitations Dispersion management.

Lecture 4 Optical fibers Last Lecture Fiber modes Fiber Losses Dispersion in single-mode fibers Dispersion induced limitations Dispersion management.
05/20/2008 1 High-Current Polarized Source Developments Evgeni Tsentalovich MIT.

05/20/ High-Current Polarized Source Developments Evgeni Tsentalovich MIT.
OPTICAL FIBER WAVEGUIDE Optical Fiber Waveguides An Optical Fiber is a dielectric waveguide that operates at optical frequencies Normally cylindrical.

OPTICAL FIBER WAVEGUIDE Optical Fiber Waveguides An Optical Fiber is a dielectric waveguide that operates at optical frequencies Normally cylindrical.
Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.

Physics 52 - Heat and Optics Dr. Joseph F. Becker Physics Department San Jose State University © 2005 J. F. Becker.
Answer the following in your openers… 11. What happens to the amplitude of a pulse as it travels down the slinky and back? 12. What happens to the speed.

Answer the following in your openers… 11. What happens to the amplitude of a pulse as it travels down the slinky and back? 12. What happens to the speed.
EEE340Lecture 381 8-10: Oblique Incidence at a Plane Dielectric Boundary A plane wave propagating in where z x.

EEE340Lecture : Oblique Incidence at a Plane Dielectric Boundary A plane wave propagating in where z x.
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 25: Interference and Diffraction.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 25: Interference and Diffraction.

Similar presentations

Ads by Google