Presentation is loading. Please wait.

Presentation is loading. Please wait.

Flow of 3 He in 640 nm thick slabs Jeevak M. Parpia, Cornell University, DMR 0806629 Background frequency (empty cell) blue triangles, frequency when the.

Published byIrma Pierce Modified over 8 years ago

Similar presentations

Presentation on theme: "Flow of 3 He in 640 nm thick slabs Jeevak M. Parpia, Cornell University, DMR 0806629 Background frequency (empty cell) blue triangles, frequency when the."— Presentation transcript:

1 Flow of 3 He in 640 nm thick slabs Jeevak M. Parpia, Cornell University, DMR 0806629 Background frequency (empty cell) blue triangles, frequency when the cell is filled (red trace). The dashed line shows the expected frequency if all the 3 He were coupled to the cell. Inset: a diagram of the experiment and cell head. Cell shows high degree of decoupling due to the polished surfaces. ● Cells were constructed using high polish Si on one side (average height variation of 20 nm) and Hoya SD-2 glass (average height variation of 0.85nm, correlation length 73 nm – below). ● We measure the background resonant frequency of a torsional oscillator. Then the cavity is filled, and the inertia of the 3 He adds to the inertia of the cell causing the frequency to decrease. The surfaces are so smooth that the 3 He fluid is decoupled from the surface at T<100 mK and shows that the no-slip boundary condition does not apply for these surfaces. ● Joint publications in J. Low Temp Phys, and Rev. Sci. Instr.. Experiments performed at Cornell. L to R: Scans show 0.85 nm height variation of Hoya glass, correlated over ~73 nm. The height to correlation length ratio provides us with an understanding of why fluid decouples. Scanning probe image of a silicon substrate coated with a nominally 1.5 nm thick film of gold. This non-continuous metal coating will be used as a mask for a CF 4 etch of the silicon, thus patterning the silicon surface with mesoscale features. We estimate that a height to correlation length of 1:5 should allow complete coupling of 3 He down to the superfluid transition.

2 Experiments on Time Dynamics in Solid Helium Jeevak M. Parpia, Cornell University, DMR 0806629 ● A highly mechanically isolated torsional oscillator was excited capacitively and detected with a SQUID readout to enable measurements with large dynamic range. ● Time dependent studies of both the dissipation and frequency shift reveal that the period shift – usually associated with the onset of supersolidity, is accompanied by an increasing time-dependent dissipation (see upper figures at right). This dissipation is in excess of that expected for the usual glassy behavior. ● The dissipative map reveals a large excess dissipation around 50 mK. Experiments underway (as yet unpublished) using the exceptional dynamic range reveal no features at the usual “onset of supersolidity”, ie the signatures are more consistent with the existence of inertially active excitations. Torsion oscillator results showing strong time, temp dependent behavior in dissipation (top) and frequency shift (lower). Note that at longer times after the temperature stabilizes (red), dissipation rises and the period shift decreases. Below: A data for dissipation and frequency shift obtained following “equilibrium”. The solid lines represent the behavior predicted for a simple glassy freeze out. Note that the period shift (blue) is in excess of the predicted value. B Map of the time dependent dissipation accompanying the shift in frequency (so-called supersolid signal). Excess dissipation and time dependent behavior is more consistent with glassy rather than supersolid behavior

3 Order of Magnitude Calculations: How to Think like a Scientist Jeevak M. Parpia, Cornell University, DMR 0806629 ● PI Jeevak Parpia presented a lunchtime talk to CNF nanofab REU students (June 30, 2010). Focused on the Gulf oil spill – it uses current events to illustrate and enable students to engage in “back of the envelope” calculations to obtain estimates from real world data. ● Students were also teamed together to provide an estimate for ocean level rise and mitigating factors associated with melting of the Greenland icecap. ● The objective is to provide confidence building for students, to get them to work in teams, to link classroom knowledge to real world situations, and above all to develop physical intuition. Presentation by webinar. Relate this to this to provide this Volume / sec =  r 2 v, r = 10 inches = 3 x 0.25 m x 0.25m x 30 m/s = 8m 3 /s =8000 l/s = Barrel is around 50 gallons = 200 liters so the estimate is for around 40 barrels/sec Remember we said we overestimated by about a factor of 10 (at least) so I would feel comfortable with a first guess of 4 barrels/sec or 320,000 barrels/day!

Download ppt "Flow of 3 He in 640 nm thick slabs Jeevak M. Parpia, Cornell University, DMR 0806629 Background frequency (empty cell) blue triangles, frequency when the."

Similar presentations

Compound Torsional Oscillator: Frequency Dependence and Hysteresis of Supersolid 4 He (and Search for Superfluid Sound Mode) Harry Kojima Rutgers University.

Compound Torsional Oscillator: Frequency Dependence and Hysteresis of Supersolid 4 He (and Search for Superfluid Sound Mode) Harry Kojima Rutgers University.
The effect of 3 He impurity on supersolid E. Kim, Korea Advanced Institute of Science and Technology J. T. West, X. Lin, and M. H. W. Chan J. T. West,

The effect of 3 He impurity on supersolid E. Kim, Korea Advanced Institute of Science and Technology J. T. West, X. Lin, and M. H. W. Chan J. T. West,
Overview of Neuroscience Tony Bell Helen Wills Neuroscience Institute University of California at Berkeley.

Overview of Neuroscience Tony Bell Helen Wills Neuroscience Institute University of California at Berkeley.
Review: Oscillations and Waves LECTURE 12. Identify  Setup  Execute  Evaluate IDENTIFY Identify what the question asking Identify the known and unknown.

Review: Oscillations and Waves LECTURE 12. Identify  Setup  Execute  Evaluate IDENTIFY Identify what the question asking Identify the known and unknown.
Table of Contents Volcanoes and Plate Tectonics Properties of Magma

Table of Contents Volcanoes and Plate Tectonics Properties of Magma
3 easy to trace lines can help locate the image formed by a lens With the magnification,

3 easy to trace lines can help locate the image formed by a lens With the magnification,
Figure 17.1: Evolution from MEMS to NEMS to molecular structures. Nanostructures may have a total mass of only a few femtograms. In the nanomechanical.

Figure 17.1: Evolution from MEMS to NEMS to molecular structures. Nanostructures may have a total mass of only a few femtograms. In the nanomechanical.
The nanoparticle-plasmon resonance for proteomics Bongsu, Jung Jaehun, Seol Final Project, ME381R December 2,2004.

The nanoparticle-plasmon resonance for proteomics Bongsu, Jung Jaehun, Seol Final Project, ME381R December 2,2004.
Creative Research Initiatives Seoul National University Center for Near-field Atom-Photon Technology - Near Field Scanning Optical Microscopy - Electrostatic.

Creative Research Initiatives Seoul National University Center for Near-field Atom-Photon Technology - Near Field Scanning Optical Microscopy - Electrostatic.
NANO 225 Micro/Nanofabrication Characterization: Scanning Probe Microscopy 1.

NANO 225 Micro/Nanofabrication Characterization: Scanning Probe Microscopy 1.
Modelling the evolution of the Siple Coast ice streams. Tony Payne 1*, Andreas Vieli 1 and Garry Clarke 2 1 Centre for Polar Observation and Modelling,

Modelling the evolution of the Siple Coast ice streams. Tony Payne 1*, Andreas Vieli 1 and Garry Clarke 2 1 Centre for Polar Observation and Modelling,
1 Superfluidity in Liquid Helium PHYS 4315 R. S. Rubins, Fall 2009.

1 Superfluidity in Liquid Helium PHYS 4315 R. S. Rubins, Fall 2009.
Normal Fluid Behavior and Superfluid Density of 3 He in axially compressed aerogel Cornell Robert Bennett, Nik Zhelev and Andrew Fefferman Royal Holloway:

Normal Fluid Behavior and Superfluid Density of 3 He in axially compressed aerogel Cornell Robert Bennett, Nik Zhelev and Andrew Fefferman Royal Holloway:
Spin Dynamics of Superfluid 3 He in Aerogel Osamu Ishikawa Osaka City University.

Spin Dynamics of Superfluid 3 He in Aerogel Osamu Ishikawa Osaka City University.
Evidence for a Diverging Length Scale in Granular packings at the Onset of Unjamming Bulbul Chakraborty, Brandeis University, DMR 0905880 ρ Dry granular.

Evidence for a Diverging Length Scale in Granular packings at the Onset of Unjamming Bulbul Chakraborty, Brandeis University, DMR ρ Dry granular.
Laser cooling of a diatomic molecule David P. DeMille, Yale University, DMR 0653377 It has been roughly three decades since laser cooling techniques produced.

Laser cooling of a diatomic molecule David P. DeMille, Yale University, DMR It has been roughly three decades since laser cooling techniques produced.
Superfluid helium weak links: physics and applications Richard Packard University of California, Berkeley.

Superfluid helium weak links: physics and applications Richard Packard University of California, Berkeley.
1 Jeffery T. Mitchell – Quark Matter 2012 - 8/17/12 The RHIC Beam Energy Scan Program: Results from the PHENIX Experiment Jeffery T. Mitchell Brookhaven.

1 Jeffery T. Mitchell – Quark Matter /17/12 The RHIC Beam Energy Scan Program: Results from the PHENIX Experiment Jeffery T. Mitchell Brookhaven.
1 Challenge the future The Lateral Motion of Wafer under the Influence of Thin-film Flow Leilei Hu Solid and Fluid Mechanics 30-09-2013.

1 Challenge the future The Lateral Motion of Wafer under the Influence of Thin-film Flow Leilei Hu Solid and Fluid Mechanics
A wealth of information on molecular dynamics lies buried in the shapes of infrared bands and Raman lines. Data obtained in the frequency domain has a.

A wealth of information on molecular dynamics lies buried in the shapes of infrared bands and Raman lines. Data obtained in the frequency domain has a.

Similar presentations

Ads by Google