Â鶹ÒùÔº

Alternating triangular charge density wave domains observed within a layered superconducting compound

A research team consisting of NIMS and the Tokyo University of Science observed charge density waves (CDWs) within niobium diselenide (NbSe₂)—a layered compound—at cryogenic temperatures and discovered that they form alternating triangular domains characterized by two distinctive star-shaped and clover-shaped CDW structures.

This domain structure was found to be consistent with a theoretical prediction made about four decades ago. is published in Â鶹ÒùÔºical Review Letters.

NbSe₂—a layered superconducting compound—is often used in basic research on quantum phenomena. It is therefore important to understand the physical properties of NbSe₂ in detail at cryogenic temperatures. These include the unique property it possesses to exhibit both superconductivity and CDWs (i.e., periodic modulations in electron density within the compound) and the interplay between them.

Ascertaining these interactions will require the identification of a precise CDW domain structure within NbSe₂. Previous research had found that CDWs within NbSe₂ appeared to have two types of domains characterized by star-shaped and clover-shaped CDW structures. However, the distribution of these two domains remained undetermined due to a lack of quantitative techniques capable of accurately elucidating them.

This research team captured high-resolution images of CDWs within NbSe₂ using a scanning tunneling microscope (STM) capable of imaging crystalline surfaces with atomic-level resolution. The team then succeeded in clearly imaging the distribution patterns of the domains characterized by star-shaped and clover-shaped CDW structures by numerically determining the displacement of CDW modulations relative to the atomic lattice observed.

The resulting image revealed that both domains had triangular shapes and were arranged in an alternating pattern similar to urokomon, a decorative motif resembling the scales of a fish or reptile often found in traditional Japanese art and crafts. This was the first-ever observation of the CDW domain structure since its existence was theoretically predicted in the 1980s.

These results are expected to advance the understanding of CDWs within NbSe₂ and other related compounds and facilitate high-temperature superconductor research by providing new insights into the relationship between CDWs and superconductivity. In addition, they may promote basic research on quantum phenomena in systems in which these compounds can be used as building blocks.