Probing the Rydberg spectrum of strontium – group meeting 22-06-08 Probing the Rydberg spectrum of strontium James Millen.

Slides:

Advertisements

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.

Advertisements

Production of Photon Triplets James Cockburn Introduction References MethodsResultsConclusion The method works by having down- conversion sources be pumped.

Rydberg & plasma physics using

Photodetector Timing Resolution Burle Micro-Channel Plate Photo Multiplier Tubes (MCP-PMTs) H. Wells Wulsin SLAC Group B Winter 2005.

Positronium Rydberg excitation in AEGIS Physics with many positrons International Fermi School July 2009 – Varenna, Italy The experimental work on.

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.

Graham Lochead 07/09/09 Pulsed laser spectroscopy in strontium.

Excitation processes during strong- field ionization and dissociatation of molecules Grad students: Li Fang, Brad Moser Funding : NSF-AMO November 29,

Rydberg physics with cold strontium James Millen Durham University – Atomic & Molecular Physics group.

Approaches to Rydberg spatial distribution measurement Graham Lochead 24/01/11.

Danielle Boddy Durham University – Atomic & Molecular Physics group Laser locking to hot atoms.

Graham Lochead YAO 2009 Towards a strontium pyramid MOT Graham Lochead Durham University

MQDT analysis James Millen. Introduction MQDT analysis – Group meeting 13/09/10 In our experiment we measure the population of Rydberg states using autoionization.

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!

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.

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

18th International Laser Physics Workshop

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

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.

Rydberg & plasma physics using ultra-cold strontium James Millen Supervisor: Dr. M.P.A. Jones Rydberg & plasma physics using ultra-cold strontium.

Studying a strontium MOT – group meeting Studying a strontium MOT James Millen.

Autoionization of strontium Rydberg states

Psy 8960, Fall ‘06 Fieldmaps1 Fieldmaps and distortion What is a fieldmap? How can we predict distortion? How can we correct distortion?

Excited state spatial distributions Graham Lochead 20/06/11.

A strontium detective story James Millen Strontium detective – Group meeting 19/10/09 Ions‽

Overview of Scientific Imaging using CCD Arrays Jaal Ghandhi Mechanical Engineering Univ. of Wisconsin-Madison.

TOF Mass Spectrometer &

1 Microstrip PSD detectors C. Fermon, V. Wintenberger, G. Francinet, F. Ott, Laboratoire Léon Brillouin CEA/CNRS Saclay.

Ions in Intense Femtosecond Laser Fields Jarlath McKenna MSci Project10th December 2001 Supervisor: Prof. Ian Williams.

Observation of Excited Biexciton States in CuCl Quantum Dots : Control of the Quantum Dot Energy by a Photon Itoh Lab. Hiroaki SAWADA Michio IKEZAWA and.

Spectroscopy of a forbidden transition in a 4 He BEC and a 3 He degenerate Fermi gas Rob van Rooij, Juliette Simonet*, Maarten Hoogerland**, Roel Rozendaal,

Quaesta Instruments Tucson Arizona Founded in 2008 Staff: 10 Electronic devices: radiation detection environmental monitoring data logging telemetry Off-the-shelf.

Progress towards laser cooling strontium atoms on the intercombination transition Danielle Boddy Durham University – Atomic & Molecular Physics group.

“End station A setup” data analysis Josef Uher. Outline Introduction to setup and analysis Quartz bar start counter MA and MCP PMT in the prototype.

Experimental set-up for on the bench tests Abstract Modeling of processes in the MCP PMT Timing and Cross-Talk Properties of BURLE/Photonis Multi-Channel.

The Development of the Bunch Length Detector (BLD) KIM Joon Yeon, KIM Do Gyun, BHANG Hyoung Chan, KIM Jong Won 1, YUN Chong Cheoul 2 Seoul National University,

Considerations on Rydberg transport for antihydrogen formation Daniel Comparat Laboratoire Aimé Cotton Orsay FRANCE.

Resonant dipole-dipole energy transfer from 300 K to 300μK, from gas phase collisions to the frozen Rydberg gas K. A. Safinya D. S. Thomson R. C. Stoneman.

March 28-April, Particle Acceleratior Conference - New York, U.S.A. Comparison of back-scattering properties of electron emission materials Abstract.

Excited state spatial distributions in a cold strontium gas Graham Lochead.

Toward a Stark Decelerator for atoms and molecules exited into a Rydberg state Anne Cournol, Nicolas Saquet, Jérôme Beugnon, Nicolas Vanhaecke, Pierre.

Dynamics of Low Density Rydberg Gases Experimental Apparatus E. Brekke, J. O. Day, T. G. Walker University of Wisconsin – Madison Support from NSF and.

Wave packet dynamics in atoms and molecules Eva Heesel Corinne Glendinning Helen Fielding Department of Chemistry University College London UCL Progress.

Spatial distributions in a cold strontium Rydberg gas Graham Lochead.

Rydberg States of Two Valence Electron Atoms W. E Cooke K.A. Safinya W. Sandner F. Gounand P. Pillet N. H. Tran R. Kachru R. R. Jones.

Spatial distributions in a cold strontium Rydberg gas Graham Lochead.

Millimeter Wave Spectroscopy of Rydberg States of Molecules in the Region of GHz David Grimes, Yan Zhou, Timothy Barnum, Robert Field Department.

TRIUMF laboratory studies Christopher Hearty University of British Columbia/IPP 27-Sep-2010.

Direct Observation of Rydberg–Rydberg Transitions in Calcium Atoms K. Kuyanov-Prozument, A.P. Colombo, Y. Zhou, G.B. Park, V.S. Petrović, and R.W. Field.

Rydberg atoms part 1 Tobias Thiele.

Microwave Spectroscopy of the Autoionizing 5d 3/2 n l States of Barium Edward Shuman Tom Gallagher.

Assignment Methods for High N Rydberg States of CaF Vladimir S. Petrovi ć, Emily E. Fenn, and Robert W. Field Massachusetts Institute of Technology International.

Multi-step and Multi-photon Excitation Studies of Group-IIB Elements

Date of download: 7/6/2016 Copyright © 2016 SPIE. All rights reserved. Schematic representation of proposed MB dual-labeled activatable probe containing.

Many-Body Effects in a Frozen Rydberg Gas Feng zhigang

Dissociation of Molecular Ions Studied by

Manipulating Rydberg Atoms with Microwaves

Acknowledgements Slides and animations were made by Dr. Jon Karty Mass Spectrometry Facility Indiana University, Bloomington.

Signal Processing Session

Andy Clark, Jamie Crooks, Renato Turchetta

Diagnostics of FRIBs beam transport line

Excitation control of a cold strontium Rydberg gas

Spherical Measuring Device of Secondary Electron Emission Coefficient Based on Pulsed Electron Beam Kaile Wen Shulin Liu Baojun Yan Yuzhen Yang Yang.

State evolution in cold helium Rydberg gas

from W. Demtröder “Molecular Physics”

Frauke Schroeder and Edward R. Grant Department of Chemistry

Types of Microscopy Type Probe Technique Best Resolution Penetration

from W. Demtröder “Molecular Physics”

Presentation transcript:

Probing the Rydberg spectrum of strontium – group meeting Probing the Rydberg spectrum of strontium 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 Probing the Rydberg spectrum of strontium – group meeting

Experimental set up Probing the Rydberg spectrum of strontium – group meeting

Detection Probing the Rydberg spectrum of strontium – group meeting Primary source of detection is a micro-channel plate (MCP), set up to detect ions. Can charge the grid to help guide charges to the MCP

Detection Probing the Rydberg spectrum of strontium – group meeting We use our field plates to accelerate and guide charge towards the MCP

Signal analysis Probing the Rydberg spectrum of strontium – group meeting Can directly count using our FPGA card (theoretical 25ns resolution, we used 1μs resolution max) Though nice to actually count ions, discriminator can become saturated Otherwise, use the signal direct from MCP amplifier, and average on the scope.

Rydberg spectrum acquisition Probing the Rydberg spectrum of strontium – group meeting The MOT is continually on and being filled, as is the 413nm laser. There is a 30μs field pulse every 500μs. There is a slow (1s) laser scan, 256 averages are taken, and the data is binned.

Results Probing the Rydberg spectrum of strontium – group meeting

Analysis Probing the Rydberg spectrum of strontium – group meeting Can use quantum defect analysis to try and identify series δ = n – n*n* = √(R sr /T n ) T n = E ion - E 1 S 0 δ= D 2 δ=2.38

Analysis Probing the Rydberg spectrum of strontium – group meeting s70s 1 S 0 5s71s 1 S 0 5s72s 1 S 0 5s73s 1 S 0 5s74s 1 S 0 5s71d 1 D 2 5s72d 1 D 2 5s73d 1 D 2 5s74d 1 D 2 5s75d 1 D 2

Analysis Probing the Rydberg spectrum of strontium – group meeting

Pushing higher Probing the Rydberg spectrum of strontium – group meeting s125s 1 S 0 5s136s 1 S 0 5s137s 1 S 0

Outlook Probing the Rydberg spectrum of strontium – group meeting Move to a cleaner experiment. Identify lines (do some theory). Also, why do we see ions at all at lower n? Make some Stark maps.