From: "Jack Cole"
To: "vortex-l"
Sent: Monday, August 29, 2016 4:58:27 PM
Subject: [Vo]:Article: Electrons with no mass acquire a mass in the presence of
a high magnetic field
Electrons with no mass acquire a mass in the presence of a high magnetic field
h
BTW, positronium has mass but Hotson's epo's do not.
Jones Beene wrote:BTW – for all of Don Hotson’s fans on
vortex, and there are many…
The epo or BEC is based on Dirac’s equation and theories – as is all of
Hotson’s “interpretation of Dirac” and this field consists entirely of massless
ele
BTW – for all of Don Hotson’s fans on vortex, and there are many…
The epo or BEC is based on Dirac’s equation and theories – as is all of
Hotson’s “interpretation of Dirac” and this field consists entirely of massless
electrons and massless positrons. Wow, think of how well this fits into the
This thread on Weyl fermions, so-called “massless electrons” seems to be
gathering a bit of traction on the internet. The WF particle or quasi-particle,
which is essentially a quantum of negative charge (somewhat reminiscent of Ken
Shoulder’s EVO) ostensibly could be captured by protons to neutr
From: Chris Zell
>> Massless electrons ? Actually we should call them Weyl Fermions (WF) since
>> by definition, the electron has mass and we do not want to ruffle too many
>> feathers. And a quick googling indicates high probability that WF have been
>> verified by several groups.
* Ar
Massless electrons ? Actually we should call them Weyl Fermions (WF) since by
definition, the electron has mass and we do not want to ruffle too many
feathers. And a quick googling indicates high probability that WF have been
verified by several groups.
Are your massless electrons related to
In a quick search to see if there are known candidates for Weyl semimetals
which also are known to be contaminants of palladium in small quantities, one
candidate has turned up - Pr2Ir2O7. In fact iridium is commonly found with
palladium ore. Praseodymium is a rare earth element that also has a
“Electrons with no mass”… wow… imagine the possibilities.
Massless electrons ? Actually we should call them Weyl Fermions (WF) since by
definition, the electron has mass and we do not want to ruffle too many
feathers. And a quick googling indicates high probability that WF have been
verified
http://libtreasures.utdallas.edu/xmlui/bitstream/handle/10735.1/4175/NSM-FR-FZhang-271294.23.pdf?sequence=1
Dirac and Weyl Superconductors in Three Dimensions
It looks like both Dirac and Weyl semimetals are superconductors. Magnetic
field will affect them with respect of their quasiparticles.
http://arxiv.org/pdf/1412.6543.pdf
The chiral magnetic effect is the generation of electric current induced by
chirality imbalance in the presence of magnetic field. It is a macroscopic
manifestation of the quantum anomaly1,2 in relativistic field theory of
chiral fermions (massless spin 1/2 parti
"zirconium pentatelluride,ZrTe5, that provides strong evidence for the
chiral magnetic effect:.
My research is all based on chirality of coils that produce fundamentally
different "currents".
This is no doubt closely related to my work!
On Tue, Aug 30, 2016 at 1:23 PM, John Berry wrote:
> "Thi
http://phys.org/news/2016-03-cool-pressure-superconductivity-3d-dirac.html
Cool under pressure: Superconductivity in 3D Dirac semimetal zirconium
pentatelluride ZrTe5
The https://en.wikipedia.org/wiki/Weyl_semimetal
The *Weyl quasiparticle is a light speed particle found in *Weyl_semimetal.
ZrT
"This is because in ZrTe5 the electrons responsible for the current have no
mass."
That itself sounds like a dramatic claim, electrons with no mass?
I am able to produce a current of something that I believe is like an
electron albeit not propperly physical, and I believe it gains something by
mo
Electrons with no mass acquire a mass in the presence of a high magnetic
field
http://flip.it/bkDC21
14 matches
Mail list logo