Understanding of macroscopic quantum behavior
By Staff Writers Montreal, Canada (SPX) Jul 15, 2015
Quantum objects visible to the naked eye.
For the first time, the wavelike behaviour of a room-temperature polariton condensate has been demonstrated in the laboratory on a macroscopic length scale. Quantum mechanics tells us that objects exhibit not only particle-like behaviour, but also wavelike behaviour with a wavelength inversely proportional to the object's velocity.
A trap for half-light, half-matter quasi-particles
Placing particles in the same state to obtain a condensate normally requires the temperature to be lowered to a level near absolute zero: conditions achievable only with complex laboratory techniques and expensive cryogenic equipment. "Unlike work carried out to date, which has mainly used ultracold atomic gases, our research allows comprehensive studies of condensation to be performed in condensed matter systems under ambient conditions" explains Mr. Daskalakis. He notes that this is a key step toward carrying out physics projects that currently remain purely theoretical. To produce the room-temperature condensate, the team of researchers from Polytechnique and Imperial College first created a device that makes it possible for polaritons - hybrid quasi-particles that are part light and part matter - to exist. The device is composed of a film of organic molecules 100 nanometres thick, confined between two nearly perfect mirrors. The condensate is created by first exciting a sufficient number of polaritons using a laser and then observed via the blue light it emits.
The size of the condensate is a limiting factor
In addition to directly observing the organic polariton condensate's wavelike behaviour, the experiment showed researchers that ultimately the condensate size could not exceed approximately 100 micrometres.
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SPACE TIME MASS MATTER ENERGY GRAVITY (including all their variables and relatives): A change to one causes changes to the others, especially noticeable at high energy differentials, OR SCALE VARIABILITY - micro, meso, macro, between any two or more specified reference points ..... predictable, controllable, substitute-able/transformable , and measurable by the quantity C.
Relationships, Substitutions, transformations, across the micro, meso, macro scales (measurable, controllable) by Light, the Quantity C, the Radius of Curvature of all Natural Law: absolute zero, excitation, frequency, spin, angular velocity, momentum........... to name just a few of the countless previously unknown transformable relationships recently discovered - as I have continuously provided in these posts - especially to the property of the simple CRYSTAL's capacity to transform one form of energy to another.
Atoms ....to ....Galaxies , Flickering under the Radius of Curvature of All Natural Law, ruled by Light, the Quantity C, in E=MC2.
Light, the quantity C, the kinetic energy equivalent of the mass energy of matter, is the RADIUS OF CURVATURE OF ALL NATURAL LAW in E=MC2, revealing a much clearer and unified picture, concept, of space, time, mass, matter, energy, gravity running through a unified micro, meso, macro perception.
Radius of Curvature of all Natural Law:- The Quantity C: Possessing a Significance Far Greater than Attributed
- Gravity – As Viewed Through the Radius (VC)
- Space as Observed through the Curve of Radius Light
- Matter and Mass - Quantum Gravity and the Holographic Mass
- Beyond A Uni-Dimensional Perception of TIME
- The Nonlinearity of Physical Law
- Definition
- PUT IT TOGETHER ACROSS ENERGY DIFFERENTIALS (WHICH INCLUDE SCALES) ......... AND THE CURVE, LIGHT, THE QUANTITY C AS THE RADIUS OF CURVATURE OF ALL NATURAL LAWS BECOMES OBVIOUS.
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- CONNECT THE SCALES - AND IT WILL BE possible to put Humpty Dumpty (stale standard model of physics) together again!.
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