Focal Interest
Focal Interest

Natural (archaeology)

  1. Hatsune Miku is presented as the metaverse concert economy's optimal entity
  2. FORESCEM simulates fine-scale land use and land cover change
  3. Touch-based speed-constant material perception relies on natural statistics
    Natural material surfaces produce speed-invariant vibration signatures that explain how humans perceive materials consistently. The spectral exponent relates to tactile receptor activation.
  4. Finnish words for light and day reflect seasonal life in the north
    Study of Finnish lexical and semantic frameworks for light and temporal concepts in response to extreme seasonal daylight variation in Nordic latitudes.
  5. Natural disasters reduce firm value, especially for high-ESG firms
    Natural disasters reduce firm value particularly for high-ESG firms in China, with non-state enterprises and lower-resilience firms facing greater adverse impacts during crises.
  6. Model captures rise and fall of ideas' popularity
    Novel SIRS-based model with dynamic feedback mechanisms captures cyclical rise and fall of idea popularity through endogenous system features rather than exogenous shocks.
  7. Montague’s shift toward formal natural language analysis
    Explore Richard Montague's intellectual shift from skepticism toward pioneering formal semantics for natural language in the late 1960s, reshaping linguistic analysis.
  8. Wheeler’s installation links desert perception with the sublime
    Analysis of Doug Wheeler's immersive installation examining landscape representation, the sublime, and human-nature relationships through philosophical and ecological theoretical frameworks.
  9. Choanoflagellate multicellularity can arise by clonal and aggregative routes
    Choanoeca flexa choanoflagellate uses both clonal and aggregative mechanisms to form reversible multicellular sheets, challenging conventional understanding of multicellular evolution.
  10. Article profiles Doudna’s Hawaii roots and scientific path
    Biographical account of Jennifer Doudna's development as a scientist, tracing her Hawaii upbringing and its potential influence on her CRISPR research and 2020 Nobel Prize in Chemistry.