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Volume 85, October 2014, Pages 30–35 A novel design of brush scrubbing in post-CMP cleaning Received 14 January 2014, Revised 1 May 2014, Accepted 6 May 2014, Available online 14 May 2014•Hydrodynamic and adhesion forces for post-CMP contamination have been discussed.•Trajectories and fluid field are simulated for concentric and eccentric scrubbing.•Eccentric scrubbing has higher particle removal efficiency.•The modeling and experimental results are beneficial for industrial applications.Concentric and eccentric brush scrubbing behaviors of the hard disk drive (HDD) substrates in post-chemical mechanical polishing (CMP) process have been investigated with kinetic brush–disk contact trajectory analysis and hydrodynamic fluid velocity simulation as well as experimental studies. The adhesion forces as well as the hydrodynamic drag force for particle removal are also discussed. The brush nodules–disk contact trajectories with eccentric scrubbing cover the full surface of the disk, however, the trajectories with concentric scrubbing only accumulate on several concentric circular bands aligned along the discrete distribution of brush nodules.

The fluid hydrodynamic force with eccentric scrubbing is larger than that with concentric scrubbing. The experimental results have found that the disk surfaces with eccentric scrubbing have approximately 40% lower particle count than that with concentric scrubbing. The modeling analysis and experimental results have found that the eccentric scrubbing has higher particle removal efficiency for the work piece with a hole at the center.bosch propet 2400w vacuum cleanerCopyright © 2014 Elsevier Ltd. aeg rapidclean vacuum cleaner ag71 Lindsay J LeBlanc, PhDcylinder vacuum cleaner bagless bgs5ecogb - white Assistant Professor and Canada Research Chair in Ultracold Gases for Quantum Simulation

3-207 Centennial Centre for Interdisc Science 2013 - present: Assistant Professor, University of Alberta 2014 - present: Canada Research Chair (Tier 2) in Ultracold gases for quantum simulation2014 - present: AITF Strategic Chair (Tier 3) in Hybrid quantum systems2015 - present: Fellow, Canadian Institute for Advanced Research, Quantum Materials Program2011: Ph.D. Physics, University of Toronto 2005: M.Sc. Physics, University of Toronto 2003: B.Sc. Engineering Physics, University of Alberta Quantum gases of ultracold atoms are well-suited to address fundamental quantum physics questions, using established atomic physics techniques for control, manipulation, and measurement. Through a combination of laser cooling, optical trapping, and magnetic field control, we can engineer systems that mimic other physical systems, especially those found in condensed matter, and use the principles of quantum simulation to study phenomena that might otherwise be difficult or impossible to explore.

The University of Alberta Ultracold Quantum Gases Laboratory focusses on two primary areas of research:Quantum simulationA dual-species Rb-K apparatus is designed to study the many-body states of matter that emerge under the influence of strong interactions, spin-orbit coupling, and unique external potentials.  We are especially interested in looking for new types of many-body order, especially at the transitions between different states and through out-of-equilibrium dynamics. Here, we seek to answer questions about the differences between the individual and communal behaviour of quantum particles as complexity increases towards conventional, classical behaviour.Hybrid quantum systemsUsing a reconfigurable ultrahigh vacuum system, we will create ultracold gases of atoms and bring them close to the surfaces of solid state devices, both to study the coupling between the electronic and magnetic degrees of freedom between the two systems, and to use one to probe the other.  These experiments will focus on using the advantages of the ultracold atoms systems (long coherence times and low temperatures) with the ability to interface solid state devices with conventional computation and readout.