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by Jeff Glorfeld
March
18, 2019
from
CosmosMagazine Website
Spanish
version
A newspaper photograph taken in 1973,
showing
a jubilant Brian Josephson
after
learning he had won the Nobel Prize for Physics.
PA Images via Getty Images
Nobel laureate
Brian Josephson
is a
controversial figure in quantum circles...
In 1962, Brian D. Josephson, a 22-year-old graduate student
at England's Cambridge University, born on January 4, 1940, in
Cardiff, Wales, predicted that electrical current would flow, or
tunnel, between two superconducting materials - things that at low
temperatures lack electrical resistance, even when they are
separated by a non-superconductor, or insulator.
In
quantum physics, matter can be
described as
both waves and particles.
Emerging from this is the
phenomenon of tunneling, which sees particles pass through
barriers that according to classic physics should be impassable...
Josephson's tunneling theory was later confirmed, and in 1973
he was one of three scientists who shared the Nobel Prize in
physics. The others were Leo Esaki and Ivar Giaever.
This tunneling phenomenon is today known as the "Josephson
effect", an important piece of evidence in the ongoing
development of superconductivity.
He went on to make several other discoveries, including those
leading to the development of the "Josephson junction switch", which
allows extreme high-speed switching on the molecular level.
The junctions are the key
components in superconducting quantum interference devices (SQUIDs),
widely used to make extremely sensitive measurements of magnetic
fields.
As an example of Josephson's unique character, in a January 2013
article in the Cambridge University publication CavMag,
commemorating the 50th anniversary of his tunneling
discovery, colleague John Waldran recalled:
"In 1973 Brian was
awarded his Nobel Prize, and of course we asked him what he was
planning to do with the money. He thought for a little while and
said he planned to upgrade his bicycle."
Source
In the late 1970s,
Josephson's work took a turn that was looked upon unfavorably by
some peers.
He began to focus on
the human brain and links between
quantum physics and para-psychological or paranormal
phenomena such as telepathy and extra-sensory perception.
He became director of the
Mind-Matter Unification Project
of the
Theory of Condensed Matter Group
at the Cavendish Laboratory, within Cambridge University.
Josephson's homepage
describes it as,
"a project concerned
primarily with the attempt to understand, from the viewpoint of
the theoretical physicist, what may loosely be characterized as
intelligent processes in nature, associated with brain function
or with some other natural process".
He told an interviewer
from the Physics World journal in 2002 that,
"physicists have an
emotional response when they hear anything connected with
parapsychology.
Their opinion of
parapsychology research is not based on evaluation of the
evidence but on a dogmatic belief that all research in this
field is false."
He'd started to think
about how the brain works and found this more fascinating than
anything in physics at the time.
He became interested in
Eastern mysticism and parapsychology.
"I began to sense
that conventional science is inadequate for situations where the
mind is involved, and the task of clarification became a major
concern of mine," he said.
"Ultimately, my work on the brain is more significant than my
Nobel-prize winning research."
Josephson's vocal support
for many fringe theories - such as
cold fusion and the idea that
water possesses memory - has seen
him shunned by many other scientists.
In 2010 organizers
withdrew an invitation for him to attend a conference on the de
Broglie-Bohm theory, an approach to quantum physics. However, it
was soon reinstated after several other attendees complained.
He continues to be very active, and defiant.
On his university
homepage he describes his work ,
"concerned
primarily with the attempt to understand, from the viewpoint of
the theoretical physicist, what may loosely be characterized as
intelligent processes in nature, associated with brain function
or with some other natural process."
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