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Smaller and more powerful electronics requires the understanding of 'quantum jamming' physics

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(Jan. 9, 2012) — Miguel A. Cazalilla, a scientist at the CFM (a joint CSIC-UPV/EHU center) and the Donostia International Physics Center (DIPC), together with four other colleagues from various institutions in Europe and the United States, recently published an article in the journal Reviews of Modern Physics of the American Physical Society.

The article, "One dimensional Bosons: From Condensed Matter to Ultracold Atoms",offers a glimpse into the recent progress in the field of one dimensional quantum many-particle physics.

Understanding the properties of matter confined in narrow channels is becoming more and more necessary as the size of elements of microchips is pushed towards the limits of miniaturization by the electronics industry. In the future, the properties of electronic devices, as well as the wires connecting them, will be strongly affected by quantum effects. The field of one dimensional quantum many-particle physics has recently moved from speculative theory to experimental evidence thanks to our capabilities to manipulate matter at the nanoscale.

When matter is forced to move essentially in a line, new kinds of collective phenomena emerge. For quantum particles, it is like being trapped in a traffic jam or queuing for movie tickets, in order to move (forward or backward) everyone must agree to do so. Thus, quantum particles like bosons, also stand in line!

Dr. Cazalilla's approach to the subject is based mainly on quantum field theory, a powerful tool that has been very successful in describing the world at the highest energy scales (those found in particle accelerators such as LHC), but also the properties of the many possible phases of matter forced to move in reduced dimensions.

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The above story is reprinted from materials provided by Elhuyar Fundazioa.

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Journal Reference:

  1. M. Cazalilla, R. Citro, T. Giamarchi, E. Orignac, M. Rigol. One dimensional bosons: From condensed matter systems to ultracold gases. Reviews of Modern Physics, 2011; 83 (4): 1405 DOI: 10.1103/RevModPhys.83.1405

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