Transcript Document

Entangled Polarized Photons
Crystals can produce pairs of photons,
heading in different directions. These
pairs always show the same polarization.
?
These are said to be entangled
photons. If one is measured to be
vertically polarized, then its partner
kilometers away will also be vertical.
?
Entanglement
1) Does a polarizing filter act by
a)
selecting light with certain
characteristics, like a sieve selects
grains larger than the hole size
or by
b)
changing the light and rotating its
polarization, like crayons and a grid
Measurement-Reality
Niels Bohr and
Einstein argued
for 30 years
about how to
interpret
quantum
measurements
like these.
Niels Bohr codified what
became the standard
view of quantum
mechanics.
The filter is like a grid
for crayons - the
photon has no
polarization until it is
measured. It is in a
superposition of states.
Einstein felt that the
filters were like a
sieve. The photons
must contain
characteristics that
determine what
they will do.
The information
from the
measurement of
one can’t possibly
fly instantaneously
to its partner.
He referred to this
as ‘spukhafte
Fernwirkungen’
which is usually
translated as
‘spooky action-at-adistance’.
Most physicists felt that there was no way to
test these views. The topic was better left to
philosophers. They kept busy using quantum
mechanics to advance physics and technology.
nuclear power
microelectronics
medical imaging
Then in 1964
John Bell devised
a test.
He looked at
what happens if
the filters are in
different
orientations.
2)Four entangled pairs of photons head
toward two vertical polarizers.
If four make it through on the left, how
many make it through on the right?
?
If four make it through on the left, four
will make it through on the right.
In this situation, Both Einstein and Bohr
predict 100% agreement between the
photon pairs.
Bell recognized that to distinguish between
the two models, we need to use filters at
different angles.
Turn the filter on the right to 30o.
3) Which of the following would Einstein
expect to see on the right if 4 photons made
it through the vertical filter on the left?
a)
b)
c)
d)
4) What percentage agreement would
he expect on average between the
photon pairs?
a) 0%
b) 25%
c) 75%
d) 100%
5) If the right filter is vertical and the
left is placed at –30o, what agreement
would he expect?
a) 0%
b) 25%
c) 75%
d) 100%
Next we combine the two experiments. The
left polarizer is at –30 and the right at +30.
6)Which of the following is possible?
a) left
b) right c) both d) neither
7) How much agreement is expected?
a) 25% b)50%
c)75%
d)100%
8) How much agreement does quantum
mechanics predict? Hint: The two filters
are at 60 degrees to each other.
a) 0%
b) 25%
c) 50%
d) 75%
Hidden Variables:
If the photons have a
polarization before
measuring - the
agreement will be between
100% and 50%.
Quantum:
The photons have no
polarization before
measuring. The agreement
should be 25%.
In 1983 Alain
Aspect did the
experiment.
He used crystals, not filters, so that
each photons’ polarization was clearly
detected and accounted for.
The results were conclusively in support
of quantum mechanics, not Einstein.
The entanglement of photons has been
demonstrated with the photons
separated by over 20 km.
Somehow, measuring one photon,
instantly affects its partner 20 km away.
Entanglement is an important part
of explaining superconductors.
Entanglement is an important
part of superfluidity.
Entanglement is an important
part of quantum computing and
cryptography.
Erwin Schrodinger
said that
entanglement was
“the characteristic
trait of quantum
mechanics, the one
that enforces its
entire departure
from classical lines
of thought.”