[tt] Next Big Future - 3 new articles
Eugen Leitl
<eugen at leitl.org> on
Tue Jun 24 06:45:14 UTC 2008
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Date: Tue, 24 Jun 2008 02:27:06 -0400
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Subject: Next Big Future - 3 new articles
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"[2]Next Big Future" - 3 new articles
1. [3]Breakthrough could be significant step to faster Spintronic
computers
2. [4]Impossible control of number electrons on the surface of a
superconductor made real
3. [5]Arata Cold Fusion follow up : how much excess heat
4. [6]More Recent Articles
5. [7]Search Next Big Future
[8]Breakthrough could be significant step to faster Spintronic computers
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[15]Physicists at UC Riverside have made an accidental discovery in
the lab that has potential to change how information in computers can
be transported or stored. The thickness of MgO (Magnesium Oxide) can
control the flow of electrons with different spin.
When the MgO interface is very thin, spin up electrons, represented in
this image with an arrow to the right, are reflected back to the
semiconductor. At an intermediate thickness of the interface, spin
down electrons are reflected back to the semiconductor, resulting in a
"spin reversal" that can be used to control current flow.
[16]Inversion of Ferromagnetic Proximity Polarization by MgO
Interlayers at Physics Review Letters by
Yan Li,1 Y. Chye,1 Y. F. Chiang,1 K. Pi,1 W. H. Wang,1 J. M.
Stephens,2 S. Mack,2 D. D. Awschalom,2 and R. K. Kawakami1
1Department of Physics and Astronomy, University of California,
Riverside, California 92521, USA 2Center for Spintronics and Quantum
Computation, University of California, Santa Barbara, California
93106, USA
We investigate the spin-dependent reflection properties in
Fe/MgO/GaAs heterostructures by optical pump-probe measurement of
the ferromagnetic proximity polarization (FPP). As a function of
MgO thickness, the FPP is initially enhanced (<2.0 Å) and then
exhibits an unexpected sign reversal at ~5.0 Å. The identification
of two competing thresholds in the intensity dependence of FPP and
the observation of FPP sign reversal in Fe/Mg/GaAs suggest that the
inversion of FPP is related to an interfacial bonding effect.
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[34]Impossible control of number electrons on the surface of a
superconductor made real
[35]A team of University of British Columbia researchers has developed
a technique that controls the number of electrons on the surface of
high-temperature superconductors, a procedure considered impossible
for the past two decades.
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[42]Led by Physics Assoc. Prof. Andrea Damascelli, the team deposited
potassium atoms onto the surface of a piece of superconducting copper
oxide. The approach allows the scientists to continuously manipulate
the number of electrons on ultra-thin layers of material. This level
of control of electrons on surfaces will have applications beyond
superconductors to other materials.
[43]From the Nature Physics paper:In situ doping control of the
surface of high-temperature superconductors
Central to the understanding of high-temperature superconductivity
is the evolution of the electronic structure as doping alters the
density of charge carriers in the CuO2 planes. Superconductivity
emerges along the path from a normal metal on the overdoped side to
an antiferromagnetic insulator on the underdoped side. This path
also exhibits a severe disruption of the overdoped normal metal's
Fermi surface. Angle-resolved photoemission spectroscopy (ARPES) on
the surfaces of easily cleaved materials such as Bi2Sr2CaCu2O8+
shows that in zero magnetic field the Fermi surface breaks up into
disconnected arcs. However, in high magnetic field, quantum
oscillations at low temperatures in YBa2Cu3O6.5 indicate the
existence of small Fermi surface pockets. Reconciling these two
phenomena through ARPES studies of YBa2Cu3O7- (YBCO) has been
hampered by the surface sensitivity of the technique. Here, we show
that this difficulty stems from the polarity and resulting
self-doping of the YBCO surface. Through in situ deposition of
potassium atoms on cleaved YBCO, we can continuously control the
surface doping and follow the evolution of the Fermi surface from
the overdoped to the underdoped regime. The present approach opens
the door to systematic studies of high-temperature superconductors,
such as creating new electron-doped superconductors from insulating
parent compounds.
"Extremely thin layers and surfaces of superconducting materials
take on very different properties from the rest of the material.
Electrons have been observed to re-arrange, making it impossible
for scientists to study," says Damascelli. "It's become clear in
recent years that this phenomenon is both the challenge and key to
making great strides in superconductor research.
"The new technique opens the door to systematic studies not just of
high-temperature superconductors, but many other materials where
surfaces and interfaces control the physical properties," says
Damascelli. "The control of surfaces and interfaces plays a vital
role in the development of applications such as fuel cells and
lossless power lines, and may lead to new materials altogether."
The superconductors Damascelli's team experimented on are the
purest samples currently available and were produced at UBC by
physicists Doug Bonn, Ruixing Liang and Walter Hardy.
Part of the study was carried out at the Advanced Light Source
synchrotron in California. In the future, the design and study of
novel complex materials for next-generation technologies will be
carried out at the Quantum Materials Spectroscopy Center currently
under construction at the Canadian Light Source in Saskatoon under
Damascelli's leadership.
FURTHER READING
[44]Profile of Andrea Damascelli
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[62]Arata Cold Fusion follow up : how much excess heat
[63]This is a follow up on the Arata cold fusion experiment which was
showing excess heat
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[70]Physics world has a review of the Arata cold fusion research This
information is a review of the [71]Arata cold fusion work at the
LENR-CANR site. [Low Energy Nuclear Reactions, also known as Cold
Fusion. (CANR, Chemically Assisted Nuclear Reaction)]
Based on 0.5 to 1 degree celsius of excess heat for one liter of water
for 5000 minutes then it appears to be about 200-400 kwh of excess
heat.
A deuterium (cold fusion) versus hydrogen (ordinary chemical)
experiment is performed by Arata. There is always a significant
temperature difference between T (inside, Tin) and T(surface of the
energy cell, Ts), indicating that the sample and cell are not
reaching equilibrium. After 300 minutes the Tin of the deuterium
experiment is about 28 °C (4 °C warmer than ambient), while Tin/Ts
of the hydrogen experiment is at about 25 °C (1 °C warmer than
ambient).
Arata claims that, given the large amount of power involved, this
must be some form of fusion -- what he prefers to call "solid
fusion". This can be described, he says, by the following equation:
D + D = 4He + heat
The deuterium experiments remain 1 °C or more than ambient for at
least 3000 minutes while still exhibiting the temperature
difference between the sample and the cell, Tin and Ts.
[72]20 °C calorie: the amount of energy required to warm 1 g of
air-free water from 19.5 °C to 20.5 °C at a constant pressure of
101.325 kPa (1 atm). This is about 4.182 J. The experiment appears to
have been dealing with one liter of water. So one extra degree for
5000 minutes would be 300,000 seconds times 4172 joules which is
1251.6 megajoules. This is 347.6 kwh. Being able to convert that
thermal energy into electricity would not be efficient without
boosting the temperature.
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----- End forwarded message -----
--
Eugen* Leitl <a href="http://leitl.org">leitl</a> http://leitl.org
______________________________________________________________
ICBM: 48.07100, 11.36820 http://www.ativel.com http://postbiota.org
8B29F6BE: 099D 78BA 2FD3 B014 B08A 7779 75B0 2443 8B29 F6BE
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