Jeff Johansen, Kevin Zack SRJC Spring 2011 Physics 43.

Slides:

Advertisements

Similar presentations

Dr. Mike Nofziger 2010 LASERS Light Amplification by the Stimulated Emission of Radiation.

Advertisements

J. Mauricio López R. Centro Nacional de Metrología, CENAM.

Dr. Mike Nofziger 2010 “LASERS” Light Amplification by the Stimulated Emission of Radiation.

PRINCIPLES AND APPLICATIONS OF LASER. LASERS ARE EVERYWHERE… 5 mW diode laser Few mm diameter Terawatt NOVA laser Lawrence Livermore Labs Futball field.

Doppler-free Saturated Absorption Spectroscopy By Priyanka Nandanwar.

Trapping Electrons With Light Elijah K. Dunn PHSX 516, Dec. 6, 2011.

A Short History of Laser H. R. Khalesifard Institute for Advanced Studies in Basic Sciences

Laser System for Atom Interferometry Andrew Chew.

Laser Cooling: Background Information The Doppler Effect Two observes moving relative to each other will observe the same wave with different frequency.

Bose-Einstein Condensates Brian Krausz Apr. 19 th, 2005.

Sisyphus Cooling Justin M. Brown November 8, 2007.

Hyperfine Studies of Lithium using Saturated Absorption Spectroscopy Tory Carr Advisor: Dr. Alex Cronin.

Temperature scale Titan Superfluid He Ultracold atomic gases.

References Acknowledgements This work is funded by EPSRC 1.R. P. Abel, U. Krohn, P. Siddons, I. G. Hughes & C. S. Adams, Opt Lett (2009). 2.A.

Quantum Computation Using Optical Lattices Ben Zaks Victor Acosta Physics 191 Prof. Whaley UC-Berkeley.

Construction of a Laser Frequency Stabilization System for a Magneto Optical Trap Talia Martin and Dr. Edward Deveney Department of Physics, Bridgewater.

Laser Optics and Quantum Mechanics Jason Goff, UCORE Summer ‘07 Steck Lab, University of Oregon Oregon Center for Optics.

Designing High Power Single Frequency Fiber Lasers Dmitriy Churin Course OPTI

Laser Locking for Long-term Magneto-Optical Trap Stability Kevin W. Vogel Advisor: Georg Raithel Presented 07/28/04.

Light and Matter Tim Freegarde School of Physics & Astronomy University of Southampton Controlling matter with light.

On the path to Bose-Einstein condensate (BEC) Basic concepts for achieving temperatures below 1 μK Author: Peter Ferjančič Mentors: Denis Arčon and Peter.

Set-up for Levy Flight of Photons in Resonant Atomic Vapor Danielle Citro (SUNY Oswego), Adailton Feliciano (UFPB), Martine Chevrollier (UFPB), Marcos.

H. J. Metcalf, P. Straten, Laser Cooling and Trapping.

Colleen Downs Stephanie Pietromonaco Sanjay Talluri

S ATURATED L ASER A BSORPTION S PECTROSCOPY By Melanie Pelcher and Theodore Rapach.

TRIµP Laser Spectroscopy: Status and Future U Dammalapati TRI  P Facility Lasers for Na  -decay Ra Spectroscopy & EDM Towards cooling of Heavy Alkaline.

Hydrogen atomic clocks J. Mauricio López R. División de Tiempo y Frecuencia.

Novel Approaches to Doppler-Free Ion Imaging I. Two-Color Reduced-Doppler Imaging II. Doppler-Free/Doppler-Sliced Imaging Cunshun Huang, Wen Li, Sridhar.

High Current Stabilization Circuit for Ultracold Atom Trap

Theoretical Study of the Optical Manipulation of Semiconductor Nanoparticles under an Excitonic Resonance Condition + Reference + T.Iida and H.Ishihara,

High-performance Apparatus for Bose-Einstein Condensation of Rubidium Yoshio Torii Erik Streed Micah Boyd Gretchen Campbell Pavel Gorelik Dominik Schneble.

Coherent excitation of Rydberg atoms on an atom chip

Progress of the Laser Spectroscopy Program at Bridgewater State College Greg Surman, Brian Keith, and Edward Deveney Department of Physics, Bridgewater.

Wolfgang Ketterle By: Stephen Mason & Layne Garcia.

Light scattering and atom amplification in a Bose- Einstein condensate March 25, 2004 Yoshio Torii Institute of Physics, University of Tokyo, Komaba Workshop.

B.E.C.(Bose-Einstein Condensation) 발표자 : 이수룡 (98).

Quantum interference phenomenon Quantum interference phenomenon in the cold atomic cascade system $$ : National Science Council and National Space Program.

6-Dec-15presentation by Dr. K.Y. Rajpure1 When Atoms Become Waves.

Physics 551 Presentation: Doppler Cooling Zane Shi Princeton University November 6 th, 2007.

Purdue University Spring 2014 Prof. Yong P. Chen Lecture 16 (3/31/2014) Slide Introduction to Quantum Optics.

Doppler Free LASER Spectroscopy

Laser Cooling and Trapping Magneto-Optical Traps (MOTs) Far Off Resonant Traps (FORTs) Nicholas Proite.

Waves, Light & Quanta Tim Freegarde Web Gallery of Art; National Gallery, London.

Фото MANIPULATING THE QUANTUM STATE OF SINGLE ATOMS AND PHOTONS works of Nobel Laureates in physics 2012 A.V.Masalov Lebedev Physics Institute, RAS, Moscow.

Chapter 9 Laser cooling and trapping

Atoms Coupled to SQUIDs

Jerzy Zachorowski M. Smoluchowski Institute of Physics, Jagiellonian University Nonlinear Spectroscopy of Cold Atoms, Preparations for the BEC Experiments.

Shanxi University Atomic Physics 6.4 Measurement of hyperfine structure_1.

“LASERS” Light Amplification by the Stimulated Emission of Radiation.

A Review of Bose-Einstein Condensates MATTHEW BOHMAN UNIVERSITY OF WASHINGTON MARCH 7,

Low Temperatures - the posters Low Temperatures Cryogenics Cold on EarthCold in Space SuperconductivitySuperfluidity Funded by EPSRC ( Partnerships for.

Laser Cooling and Trapping

High power VBG Yb-fiber laser

Beryllium ions in segmented Paul trap

Optical Cooling and Trapping of Macro-scale Objects

Dan Mickelson Supervisor: Brett D. DePaola

PHY 114 A General Physics II 11 AM-12:15 PM TR Olin 101

PHY 341/641 Thermodynamics and Statistical Physics Lecture 33

Lecture 37 Temperature and 0th law of thermodynamics

A New Design for a Tunable External Cavity Diode Laser

Laser Locking for Long-term Magneto-Optical Trap Stability

PHY 341/641 Thermodynamics and Statistical Physics Lecture 32

Space Telescope Science Institute

Tunable Slow Light in Cesium Vapor

First Results from the K-State MOTRIMS Experiment

½ ¼ each 5th woman to wing Nobel prize in Chemistry.

Prem , Siva and Basudev Physics, I. I. T. Madras, CHENNAI

Heavy Ion Nuclear Physics Lab. Yukari MATSUO

Intense laser beams Physics Nobel Prize 2018 awarded to Arthur Ashkin, Gérard Mourou and Donna Strickland Today’s speakers: Dr James Lloyd-Hughes and Dr.

Cold Atom project 12/02/2019.

Presentation transcript:

Jeff Johansen, Kevin Zack SRJC Spring 2011 Physics 43

First time it was theorized Theodor Hansch and Arthur Schawlow theorized laser cooling at Stanford University in Theodor Hansch and Arthur Schawlow theorized laser cooling at Stanford University in Theodor Hansch Arthur Schawlow

First Successful Test In 1985 Steven Chu invents laser cooling and receives a Nobel Prize in In 1985 Steven Chu invents laser cooling and receives a Nobel Prize in Prof. Dr. William Daniel Phillips (USA) and Claude Cohen- Tannoudji (France) shared the Nobel prize with Steven Chu. 2 Prof. Dr. William Daniel Phillips (USA) and Claude Cohen- Tannoudji (France) shared the Nobel prize with Steven Chu. 2 Steven Chu Prof. Dr. William Daniel Phillips Claude Cohen- Tannoudji

Theoretical Atomic Resonance Atomic Resonance Doppler Shift – Atom only “sees” the blue shift Δm-1 transition Doppler Shift – Atom only “sees” the blue shift Δm-1 transition Zeeman Effect Zeeman Effect Polarization Polarization Magneto Optical Trap Magneto Optical Trap

Optics Optical Isolator Dielectric coated mirrors Beam Splitter ¼ λ Plate Two lens telescope

Set Up Kelvin [5]

Lasers Trapping laser Trapping laser Diode Laser Diode Laser Its power requirements are proportional to the amount of atoms trapped, around 5mW Its power requirements are proportional to the amount of atoms trapped, around 5mW Hyperfine pumping laser Hyperfine pumping laser Diode Laser Diode Laser Only needs to be a few milli-watts Only needs to be a few milli-watts λ based on the type of atom trapped λ based on the type of atom trapped

Equipment Tunable Laser Anti-Helmholtz Coil Zeeman Slower

Murray, Andrew [3] The Cooling Process

What types of atoms are used? Rb (Rubidium ) atom has an atomic resonance of 780 nm. Rb (Rubidium ) atom has an atomic resonance of 780 nm. Cs (Cesium ) atom has an atomic resonance of 852nm. Cs (Cesium ) atom has an atomic resonance of 852nm. Na (sodium ) atom has an atomic resonance of 589 nm. Na (sodium ) atom has an atomic resonance of 589 nm. Srinivasan [6]

Works Cited [1] "The Nobel Prize in Physics 1997". Nobelprize.org. 16 Apr [1] "The Nobel Prize in Physics 1997". Nobelprize.org. 16 Apr [2] "The Nobel Prize in Physics 2001". Nobelprize.org. 16 Apr [2] "The Nobel Prize in Physics 2001". Nobelprize.org. 16 Apr [3] Murray, Andrew. "The Atom Optics Experiment at Manchester." Atom Cooling and Trapping Experiments at Manchester. 12 Jan Web. 15 Apr [3] Murray, Andrew. "The Atom Optics Experiment at Manchester." Atom Cooling and Trapping Experiments at Manchester. 12 Jan Web. 15 Apr [4] Ketterle, Wolfgang. "Ultralow Temperatures." 1 Jan Web. 15 Apr [4] Ketterle, Wolfgang. "Ultralow Temperatures." 1 Jan Web. 15 Apr [5] Wagner, Kelvin. "Laser Cooling and Trapping." Web. 15 Apr [5] Wagner, Kelvin. "Laser Cooling and Trapping." Web. 15 Apr [6] Srinivasan, R. "Laser Cooling and Trapping of Ions and Atoms." National University of Singapore. Web. 19 Apr [6] Srinivasan, R. "Laser Cooling and Trapping of Ions and Atoms." National University of Singapore. Web. 19 Apr