Crystalline systems are physical systems in which constituent particles (atoms, ions, or molecules) are arranged in a periodic lattice that exhibits long-range translational order. They are characterized by discrete symmetry operations described by space groups, with unit cells repeating periodically in one, two, or three dimensions. This periodicity gives rise to well-defined Brillouin zones, phonon dispersion relations, and electronic band structures, which critically determine mechanical, optical, thermal, and electronic properties. Crystalline systems serve as fundamental models in condensed matter physics for studying phase transitions, defects (dislocations, vacancies), and emergent phenomena such as superconductivity and ferroelectricity.
A research team from Tohoku University and Kyocera Corp. has developed a new magneto-optical material—a nanocomposite magnetic garnet film—that can be deposited directly onto silicon substrates while delivering a magneto-optical ...
Nanophysics
Jun 16, 2026
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25
A KAIST research team has succeeded, for the first time, in synthesizing the core raw material for fabricating asymmetric MXene, a so-called "Janus-faced" nanomaterial that can perform distinct functions because of differing ...
Nanomaterials
Jun 11, 2026
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6
An international team of researchers has reported a major advance in understanding quantum dynamics in semiconductor materials. They directly observed how excitons and phonons evolve together in perovskite nanocrystals, revealing ...
Condensed Matter
Jun 9, 2026
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44
Researchers at Kanazawa University, in collaboration with Diamond and Carbon Applications (Germany), have developed a buried-growth process for nitrogen–vacancy (NV) centers in diamond using microwave plasma chemical vapor ...
Plasma Physics
Jun 9, 2026
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7
Researchers have demonstrated the ability to use van der Waals forces to tune the physical and electronic properties of ferroelectric thin films. The work opens the door to new techniques for engineering materials for use ...
Nanophysics
Jun 8, 2026
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20
Raman optical activity, long thought to require chiral molecules or magnetic order, has been demonstrated in an achiral, nonmagnetic crystal by researchers at the Institute of Science Tokyo. The effect arises through ferroaxial ...
Optics & Photonics
Jun 8, 2026
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8
A material may appear flawless on the surface yet fail to function properly. The cause lies in structural defects hidden within two-dimensional thin films, which are considered key materials for next-generation semiconductor ...
Nanomaterials
Jun 7, 2026
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17
Waves of light and sound interact to drive electronic and structural changes in a perovskite crystal. At the atomic scale, nothing is ever truly still. Materials that appear perfectly rigid and motionless to the naked eye ...
Condensed Matter
Jun 5, 2026
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98
Scientists at the U.S. Department of Energy's (DOE) Argonne National Laboratory are helping show what it means to design a material almost atom-by-atom. In two publications, scientists show they can carefully choose the types ...
Nanomaterials
Jun 4, 2026
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8
Nanodiamonds are tiny diamond particles only a few nanometers in size. Because they are chemically highly stable and can host so-called color centers, optically active defects in the crystal lattice, they are considered promising ...
Nanophysics
Jun 3, 2026
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