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Thread: Physicists create new form of matter

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    Founder Sheila's Avatar
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    Physicists create new form of matter



    phys.org
    by Max McClure
    6 Jun 12
    Thanks to goodnewsnetwork for the find.

    Within the exotic world of macroscopic quantum effects, where fluids flow uphill, wires conduct without electrical resistance and magnets levitate, there is an even stranger family of "unconventional" phenomena. These effects often defy explanation by current theoretical physics, but hold enormous promise for the development of such futuristic technologies as room-temperature superconductors, ultrasensitive microscopes and quantum computation.

    Much of the confusion surrounding the field is due to the sorts of materials that exhibit unconventional superconductivity. These substances are made up of strongly interacting fermions, a class of particles that are often very difficult to understand on the quantum level.

    Last week's announcement by a Stanford team in Physical Review Letters that it has created the world's first dipolar quantum fermionic gas from the metal dysprosium – "an entirely new form of quantum matter," as Stanford applied physics Professor and lead author Benjamin Lev put it – represents a major step toward understanding the behavior of these systems of particles. And this understanding makes for a leap toward the supernatural-seeming applications that condensed-matter physics conjures.

    Being ultracold

    When the thermal energy of some substances drops below a certain critical point, it is often no longer possible to consider its component particles separately. Instead, the material becomes "strongly correlated" and its quantum effects become difficult to understand and study.

    Making the material out of a gas of atoms allows what is normally only observed on a nanometer scale to become visible. These quantum gases, the coldest objects known to man, are where researchers see zero-viscosity fluids – superfluids – that are mathematical cousins of superconductors.
    ….

    Lev, as well as Stanford graduate students Mingwu Lu and Nathaniel Burdick, heated their particles in a crucible to around 1,300 degrees Celsius and shot them into a powerful vacuum. Using the world's most powerful continuous-wave blue laser, the particles were then cooled to within a thousandth of a degree of absolute zero. Subsequent lasers and an evaporative cooling process eventually brought the gas down to the experimental temperature of 64 nanokelvin – very, very cold.
    ….

    The evaporative cooling process the researchers hoped to use to bring the gas down to the nanokelvin range depends on collisions between particles. Collisions both dissipate energy and knock high-energy particles out of the system.

    "But the lore in the field is that identical fermions never collide," Lev said.

    Fermions obey the Pauli exclusion principle, which states that no two fermions can occupy the same state simultaneously. This inviolable rule seems to disallow direct interactions between fermionic particles.

    Dysprosium's status as the most magnetic element was crucial to overcoming this apparent impossibility. Because of the extraordinarily strong magnetic dipolar interactions between the dysprosium atoms, the particles were able to cool to below the critical temperature by colliding from afar, despite being quantum mechanically identical.

    Putting the gas to work

    Thus far, the result of the Lev lab's high-tech efforts is a tiny ball of ultracold quantum dipolar fluid. But the researchers have reason to believe that the humble substance will exhibit the seemingly contradictory characteristics of both crystals and superfluids.

    This combination could lead to quantum liquid crystals, or quantum-mechanical versions of the liquid crystals that make up most electronic displays. Or it could yield a supersolid – a hypothetical state of matter that would, in theory at least, be a solid with superfluid characteristics.
    ….

    Beyond these applications, the study offers physicists another line of attack toward understanding unconventional quantum effects…..


    http://phys.org/news/2012-06-stanford-physicists.html
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    Founder Luc's Avatar
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    Quote Originally Posted by Sheila View Post
    Last week's announcement by a Stanford team in Physical Review Letters that it has created the world's first dipolar quantum fermionic gas from the metal dysprosium– "an entirely new form of quantum matter
    Wow, I need some time for it to sink in, and then I'll try to google it to, at least very partially, wrap my head around it.
    Keep walking. Just keep walking.

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