David Geelan Centre for Quantum Dynamics/ Institute for Glycomics

Slides:

Advertisements

Similar presentations

Towards Human-Realistic Animation by Observing Real Human Dynamics Darren Cosker Towards Human-Realistic Animation by Observing Real Human Dynamics Darren.

Advertisements

Conclusions Future work Methods Background Introduction Lily Stanley, Juan Du, and Xuan Gao Department of Physics, Case Western Reserve University Nanowire.

Trapping of Hydroxyl Radical and Ozone at Salt Aerosol Surfaces: A Molecular Dynamics Study Martina Roeselová, a Douglas J. Tobias, b R. Benny Gerber,

Modelling Salt Tectonics and Sedimentary Basin Evolution at Passive Margins. Implications for HC Exploration on the Scotian Shelf. Author: Sheila M Ballantyne.

Surface-electrode ion trap with integrated light source Tony Hyun Kim Chuang group 2011 April 5.

Ion-trap quantum computation Summer School of CQIQC 2012 Laser Lab Prof. Vasant Natarajan Department of Physics Indian Institute of Science Bangalore May.

Geonium A Fake but Useful Atom BoBo. Overview What is Geonium and why is it useful? A little bit of history What is a Penning trap? Penning trap components.

Carbon Sequestration is the process of trapping CO 2 underground in order to prevent its release into the atmosphere to reduce our impact on the climate.

Study of Liquid Breakup Process in Solid Rocket Motors Author: Michael Stefik & Bryan Sinkovec, Co-Author: Yi Hsin Yen, Faculty Advisor: Professor Ryoichi.

Fuel Cell Modeling Team Members: Albert Wong Faculty Advisor: Dr. Blekhman Department of Computer Science and Technology College of Engineering, Computer.

VisTrails Provenance In VisIt David Koop. VisIt Basics ‘Turn-key’ visualization application Viewer GUI Plots / Operators.

Naomi Alandt, Paul Andrews, Jeremiah Zimmerman

ELECTRICAL POROUS SILICON MICROARRAY FOR DNA HYBRIDIZATION DETECTION M. Archer*, D. Persaud**, K. D Hirschman**, M. Christophersen* and P. M Fauchet* *Center.

1 Colloid acceleration and dispersion in saturated micromodels Donald Bren School of Environmental Science & Management University of California, Santa.

Submicron structures 26 th January 2004 msc Condensed Matter Physics Photolithography to ~1 μm Used for... Spin injection Flux line dynamics Josephson.

ME-381 Dec. 5Xiaohui Tan, Rui Qiao A STUDY ON CELL ADHESION BY USING MEMS TECHNOLOGY Rui Qiao Xiaohui Tan ME-381 Dec. 5.

Airflows and the spread of airborne pathogens in the ICU Dr Collette W

5/5/2006Visualization Sciences, Texas A&M University1 Spatially Immersive Visualization Systems (an update) Prof. Frederic I. Parke Visualization Sciences.

SPHERE PEG GAY FAIRBURY JR SR HIGH SCHOOL. PROJECT SPHERE  Cherenkov light: radiation which is emitted whenever charged particles pass through matter.

02/08/2015Regional Writing Centre2 02/08/2015Regional Writing Centre3.

EXAMPLE 3 Use areas to find a geometric probability The diameter of the target shown at the right is 80 centimeters. The diameter of the red circle on.

EXAMPLE 3 Use areas to find a geometric probability The diameter of the target shown at the right is 80 centimeters. The diameter of the red circle on.

Project ASCEND! Embry-Riddle Aeronautical University Spring 2014.

MEMS for NEMS Solutions for the Fat Finger Problem Michael Kraft.

Point Paul trap: Fiber integration and height variation

Introduction and Overview DNA origami is a self-assembling system, an ideal anchor for nano- electronic devices. The scaffold of the DNA is a single strand.

Science Fair Project Type your project title here Your name Period # Miss Gregory Chenango Forks Middle School.

11 Writing a Conference Research Paper Miguel A. Labrador Department of Computer Science & Engineering

Nanocomposite Strain Sensors Christopher J. Tzanavaris.

Precision Control Autonomous Systems for NEO Mission Design Karl Williams Matthew Zimmer.

FYRIRLESTRAMARAÞON HR 2011 | RU LECTURE MARATHON 2011 Ágúst Valfells Science and Engineering SIZE MATTERS –ELECTRON BEAMS AT THE MICROSCALE.

WIRELESS MICROMACHINED CERAMIC PRESSURE SENSORS

Marc De Vos, Dr Russel Torah, Prof Steve Beeby and Dr John Tudor

International Microgravity Plasma Facility John Goree The University of Iowa.

Xiang Zhang ’s Group Department of Mechanical and Aerospace Engineering University of California at Los Angeles California Nano System Institute (CNSI)

An Efficient Search Strategy for Block Motion Estimation Using Image Features Digital Video Processing 1 Term Project Feng Li Michael Su Xiaofeng Fan.

Mass Analyzers: Quadrupole ion trap?

David Perry The University of Warwick Electrochemistry and Interfaces Group Bias Modulated Scanning Ion Conductance Microscopy (BM-SICM)

Data was collected from various instruments. AOD values come from our ground Radiometer (AERONET) The Planetary Boundary Layer (PBL) height is collected.

1. 2 Last Workshop… ImageJ basics –Image manipulation –Setting scale –Making measurements –Counting particles.

The role of impact structures in localizing explosive volcanism on a contracting planet: Mercury Rebecca J. Thomas*, Dave A. Rothery, Susan J. Conway,

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.

Dr. T.N.Singh Professor Rock Mechanics, Natural disaster, Climate change, Mining Research, Surface Mining.

EE/CS 481 Spring Founder’s Day, 2008 University of Portland School of Engineering Team Blue Heron: Educational Ball and Beam Feedback Control System.

Quad Rat Vitals Monitor Robert Bjerregaard 1, Matthew Bollom 1, Caitlyn Collins 1, Derek Klavas 1 Advisor: Paul Thompson 1, PhD. Client: Alex Converse.

Picosecond timing of high energy heavy ions with semiconductor detectors Vladimir Eremin* O. Kiselev**, I Eremin*, N. Egorov***, E.Verbitskaya* * Physical-Technical.

Electroplating Applying metal to a conductive surface by David Clark.

Science Fair Project Type your project title here Your name Period #

Nathalya Ramirez1, Zach McNulty2, Michael Orrill3, Saniya Leblanc3

Ultra broadband plasmonic absorbers for terahertz waves

DR. QUAZI DELWAR HOSSAIN

@ Technology & Innovation Centre, University of Strathclyde

University of Leicester

Rogerio Feris 1, Ramesh Raskar 2, Matthew Turk 1

Matthew Bomberger1, Francisco Izquierdo1, Aiwu Zhang2

Background With new accelerators delivering beams always smaller and more energetic, requirements for very precise beam alignment become more and more.

Brain Initiative Informational Conference Call

1888pressrelease - "Quantum Chromodynamics (QCD)"

Development of a 3-D Fibre Based Laser Light Force Optical Trap

Single Tapered Fibre “Optical Tweezers”

Single Tapered Fibre “Optical Tweezers”

Constructing a Chronic Neural Ensemble Recording System

Asteroid Mobility Using Screw-Powered Vehicles (SPV’s)

Enlargements and area Scale factor Area of object Area of image.

Axicons and Nanowires By Daniel Todd

Imaging Structural Proteins

Research Co-ordination Meeting of the IAEA CRP on “Elements of power

Sathya Sai Seetharaman, Ian R. Hooper, William L. Barnes

Fiber-coupled Point Paul Trap

ECE 576 POWER SYSTEM DYNAMICS AND STABILITY

Presentation transcript:

David Geelan Centre for Quantum Dynamics/ Institute for Glycomics Trapping and Characterising Charged Particles Across A Wide Range of Q/M Ratios David Geelan Centre for Quantum Dynamics/ Institute for Glycomics

Motivation Exploring and characterising behaviour of large biomolecules (without solution or substrate) including manipulations Extending the trap depth and range of convenience of Paul traps in terms of Q/M ratios and scales of particles (and making them cheaper and easier to fabricate)

History Nobel Prize for Physics, 1989 Wolfgang Paul (photo: dpa) Hans Dehmelt (photo: Matthew McVay/Corbis) Nobel Prize for Physics, 1989

Experiment Mechanical analog for Paul trapping (video: NatSci Videos) Modes of a quadrupole ion trap (image: Arian Kriesch)

Experiment

Data Computer (MATLAB) modeling of stability region for a range of damping conditions Experimental graph of trap stability, b≈1

Particles are on the order of 30 µm in diameter Data One trapped particle, full gravity compensation Multiple trapped particles, no gravity compensation Two trapped particles, partial gravity compensation Particles are on the order of 30 µm in diameter

Conclusion and Future Directions Three trapped nanodiamonds (image: Erik Streed) Surface ring trap design on printed circuit board (image: Kim, Herskind, Kim, Kim & Chuang)

Credits and Acknowledgements Thanks to my supervisory team: Dr Erik Streed and Professor Dave Kielpinski We acknowledge HDR research funding from the School of Biomolecular and Physical Sciences All images and video not otherwise credited: David Geelan