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Bose Einstein condensate was not actually found but predicted by Albert Einstein. It would be impossible for Bose/Eistein condensate to exist, but Einstein got very close.
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Who made Bose Einstein condenstate?
Bose-Einstein condensate was predicted by Satyendra Nath Bose and Albert Einstein in the 1920s. However, the first experimental realization of Bose-Einstein condensate was achieved by Eric Cornell, Carl Wieman, and Wolfgang Ketterle in 1995.
What is it called when solid turns into Bose-Einstein condensate?
When a solid turns into a Bose-Einstein condensate, it is referred to as "Bose-Einstein condensation" or "Bose-Einstein condensate formation." This occurs when the individual particles (normally atoms) in the solid lose their distinguishable identities and behave as a single quantum entity at very low temperatures.
Do the atoms in a Bose-Einstein condensate move?
Yes, the atoms in a Bose-Einstein condensate do move, but they move as a single quantum mechanical entity rather than individual particles. This movement is described by a single wave function that characterizes the entire condensate.
Where would you find a Bose-Einstein condensate, and what are its unique properties?
A Bose-Einstein condensate is a state of matter that can be found at extremely low temperatures, close to absolute zero. It is created in laboratories using techniques such as laser cooling. Some unique properties of a Bose-Einstein condensate include all the particles occupying the same quantum state, behaving as a single entity, and exhibiting wave-like properties. This state of matter allows for the study of quantum phenomena on a macroscopic scale.
What are the key findings and implications of the Bose-Einstein condensate paper?
The key findings of the Bose-Einstein condensate paper were the successful creation of a new state of matter at extremely low temperatures. This state, known as a Bose-Einstein condensate, exhibited unique quantum properties such as superfluidity and coherence. The implications of this discovery include potential applications in quantum computing, precision measurements, and fundamental physics research.
What is the state of matter found in the coldest conditions?
Bose-Einstein condensate
Who was Bose-Einstein condensate named after?
Named after Albert Einstein and Satyendra Bose
Who was the discoverer of Bose Einstein condensate?
S.N.BOSE and Albert Einstein
What are the example of Bose-Einstein condensate?
MEASUREMENT
Who made Bose Einstein condenstate?
Bose-Einstein condensate was predicted by Satyendra Nath Bose and Albert Einstein in the 1920s. However, the first experimental realization of Bose-Einstein condensate was achieved by Eric Cornell, Carl Wieman, and Wolfgang Ketterle in 1995.
What is it called when solid turns into Bose-Einstein condensate?
When a solid turns into a Bose-Einstein condensate, it is referred to as "Bose-Einstein condensation" or "Bose-Einstein condensate formation." This occurs when the individual particles (normally atoms) in the solid lose their distinguishable identities and behave as a single quantum entity at very low temperatures.
What does a cooled gas become?
A bose-einstein condensate.
Which is the 6th state of matter?
bose-einstein condensate
Who discover the Bose Einstein Condensate?
Bose Einstein condensing were first discovered by Eric cornell and carl wieman
What are the two states of matter that cannot be found in your planet naturally?
bose-einstein condensate is the only one
Why rubidium is an example of a Bose-Einstein condensate?
Rubidium in itself is not an example of a Bose-Einstein condensate. The Bose-Einstein condensate is the fifth state of matter. Bose-Einstein condensate is a state of matter that only exists near absolute zero (zero degrees Kelvin) temperatures. Currently Rubidium is one of the only materials that scientists have caused to become a Bose-Einstein condensate. So Rubidium isn't an example of a Bose-Einstein condensate, its just an element that has been able to change state and become a Bose-Einstein condensate. Another one is Neutron star wich is the dead remains of a star that has exploded as a supernova. It is like a giant, dense, heavy nucleus of mostly neurons.
Does Bose-Einstein have a shape?
Ideally a Bose-Einstein condensate collapses to a single point. But there will always be excess energy preventing this.
