Presentation is loading. Please wait.

Presentation is loading. Please wait.

Dipole-dipole interactions in Rydberg states. Outline Strontium experiment overview Routes to blockade Dipole-dipole effects.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Dipole-dipole interactions in Rydberg states. Outline Strontium experiment overview Routes to blockade Dipole-dipole effects."— Presentation transcript:

1 Dipole-dipole interactions in Rydberg states

2 Outline Strontium experiment overview Routes to blockade Dipole-dipole effects

3 Team strontium Matt JonesCharles Adams MeDan Sadler Danielle Boddy Christophe Vaillant

4 Rydberg physics Rydberg atoms: States of high principal n Strong, tunable interactions Position Column density Excited state Ground state

5 Spatial measurements Automatic translation state Lens setup

6 Autoionization 5s 2 5s5p 5sns(d) 5s Sr + 5pns(d) λ 1 = 461 nm λ 2 = 413 nm λ 3 = 408 nm Resonant ionization process Increases signal over spontaneous ionization Independent excitation and detection Can give spectral and temporal information

7 Preliminary results Time Repeat MOT + Zeeman Probe + Coupling (1 μs) 408 pulse (1 μs) Electric field pulse (5 μs) ~10 6 atoms at 5 mK Camera image for atom number 408 is focused to 10 μm Translation stage stepped Ions detected on an MCP

8 Increasing density 5s 2 1 S 0 5s5p 1 P 1 5s4d 1 D 2 5s6s 3 S 1 5s5p 3P23P2 3P13P1 3P03P0 461 nm 679 nm707 nm Current cooling scheme has leak Repumping increases density by approximately an order of magnitude

9 Förster zeros T.G. Walker and M. Saffman, PRA 77, 032723 (2008) Long range van der Waals interaction couples pairs of states : radial part of the interaction : angular part of the interaction Förster zero is where is zero Sum over all final states to get total interaction

10 Quantization coils I Apply magnetic field to define quantization axis  Polarization well defined, can excite specific m J Need to switch fast  Avoid losing density External coils too slow  Eddy currents in chamber

11 Quantization coils II Solution: Use internal coils Vertical excitation beams are orthogonal to autoionizing beam

12 Internuclear axis Internuclear axis aligned with quantization axis  m J projection good Internuclear axis not aligned with quantization axis  m J projection varies Solution: Use S states or make geometry 1D

13 Summary Signal to noise of spatial measurements is good Close to blockade densities Need to control polarization to avoid Förster zeros

Download ppt "Dipole-dipole interactions in Rydberg states. Outline Strontium experiment overview Routes to blockade Dipole-dipole effects."

Similar presentations

Photoexcitation and Ionization of Cold Helium Atoms R. Jung 1,2 S. Gerlach 1,2 G. von Oppen 1 U. Eichmann 1,2 1 Technical University of Berlin 2 Max-Born-Institute.

Photoexcitation and Ionization of Cold Helium Atoms R. Jung 1,2 S. Gerlach 1,2 G. von Oppen 1 U. Eichmann 1,2 1 Technical University of Berlin 2 Max-Born-Institute.
Outlines Rabi Oscillations Properties of Rydberg atoms Van Der Waals Force and Rydberg Blockade The implementation of a CNOT gate Preparation of Engtanglement.

Outlines Rabi Oscillations Properties of Rydberg atoms Van Der Waals Force and Rydberg Blockade The implementation of a CNOT gate Preparation of Engtanglement.
First Year Seminar: Strontium Project

First Year Seminar: Strontium Project
Rydberg & plasma physics using

Rydberg & plasma physics using
Magnetic Resonance Imaging

Magnetic Resonance Imaging
Mallory Traxler April 2013. 2/39  Continuous atom laser  Continuous, coherent stream of atoms  Outcoupled from a BEC  Applications of atom lasers:

Mallory Traxler April /39  Continuous atom laser  Continuous, coherent stream of atoms  Outcoupled from a BEC  Applications of atom lasers:
Ultra-Cold Strontium Atoms in a Pyramidal Magneto-Optical Trap A.J. Barker 1, G. Lochead 2, D. Boddy 2, M. P. A. Jones 2 1 Ponteland High School, Newcastle,

Ultra-Cold Strontium Atoms in a Pyramidal Magneto-Optical Trap A.J. Barker 1, G. Lochead 2, D. Boddy 2, M. P. A. Jones 2 1 Ponteland High School, Newcastle,
Laser cooling of molecules. 2 Why laser cooling (usually) fails for molecules Laser cooling relies on repeated absorption – spontaneous-emission events.

Laser cooling of molecules. 2 Why laser cooling (usually) fails for molecules Laser cooling relies on repeated absorption – spontaneous-emission events.
P. Cheinet, B. Pelle, R. Faoro, A. Zuliani and P. Pillet Laboratoire Aimé Cotton, Orsay (France) Cold Rydberg atoms in Laboratoire Aimé Cotton 04/12/2013.

P. Cheinet, B. Pelle, R. Faoro, A. Zuliani and P. Pillet Laboratoire Aimé Cotton, Orsay (France) Cold Rydberg atoms in Laboratoire Aimé Cotton 04/12/2013.
Probing the Rydberg spectrum of strontium – group meeting 22-06-08 Probing the Rydberg spectrum of strontium James Millen.

Probing the Rydberg spectrum of strontium – group meeting Probing the Rydberg spectrum of strontium James Millen.
Rydberg physics with cold strontium James Millen Durham University – Atomic & Molecular Physics group.

Rydberg physics with cold strontium James Millen Durham University – Atomic & Molecular Physics group.
Approaches to Rydberg spatial distribution measurement Graham Lochead 24/01/11.

Approaches to Rydberg spatial distribution measurement Graham Lochead 24/01/11.
Danielle Boddy Durham University – Atomic & Molecular Physics group Laser locking to hot atoms.

Danielle Boddy Durham University – Atomic & Molecular Physics group Laser locking to hot atoms.
Laser Magnetized Plasma Interactions for the Creation of Solid Density Warm (~200 eV) Matter M.S. R. Presura, Y. Sentoku, A. Kemp, C. Plechaty,

Laser Magnetized Plasma Interactions for the Creation of Solid Density Warm (~200 eV) Matter M.S. R. Presura, Y. Sentoku, A. Kemp, C. Plechaty,
Graham Lochead YAO 2009 Towards a strontium pyramid MOT Graham Lochead Durham University

Graham Lochead YAO 2009 Towards a strontium pyramid MOT Graham Lochead Durham University
A Magneto-Optical Trap for Strontium James Millen A Magneto-Optical Trap for Strontium – Group meeting 29/09/08.

A Magneto-Optical Trap for Strontium James Millen A Magneto-Optical Trap for Strontium – Group meeting 29/09/08.
Danielle Boddy Durham University – Atomic & Molecular Physics group Red MOT is on its way to save the day!

Danielle Boddy Durham University – Atomic & Molecular Physics group Red MOT is on its way to save the day!
Rydberg excitation laser locking for spatial distribution measurement Graham Lochead 24/01/11.

Rydberg excitation laser locking for spatial distribution measurement Graham Lochead 24/01/11.
The story unfolds… James Millen The story unfolds… – Group meeting 12/04/10.

The story unfolds… James Millen The story unfolds… – Group meeting 12/04/10.
Studying our cold Rydberg gas James Millen. Level scheme (5s 2 ) 1 S 0 461nm 32MHz (5s5p) 1 P 1 (5sns) 1 S 0 (5snd) 1 D 2 Continuum ~413nm Studying our.

Studying our cold Rydberg gas James Millen. Level scheme (5s 2 ) 1 S 0 461nm 32MHz (5s5p) 1 P 1 (5sns) 1 S 0 (5snd) 1 D 2 Continuum ~413nm Studying our.

Similar presentations

Ads by Google