The role of tropical waves in the genesis of Tropical Cyclone Seroja in the Maritime Continent.

Tropical cyclone Seroja was one of the first tropical cyclones to significantly impact Indonesian land, and the strongest one in such close proximity to Timor Island. In April 2021 Seroja brought historic flooding to near-equatorial regions of Indonesia and East Timor, as well as impacting Western Australia. Here we show that the unusual near-equatorial cyclogenesis in close proximity to a land mass was due to "perfect storm" conditions associated with multiple wave interactions.

Between Moscow and Berlin: The Russian connections behind Flatau's "Law of Eccentric Location of Long Pathways in Spinal Cord".

The origins of Edward Flatau's "The Law of Eccentric Location of Long Pathways in Spinal Cord" are discussed, considering newly examined archival documents from Central State Archive of Moscow and Museum of the I. M. Sechenov University (former medical faculty of Imperial Moscow University [IMU]).

Social-media and newspaper reports reveal large-scale meteorological drivers of floods on Sumatra.

Floods are a major contributor to natural disasters in Sumatra. However, atmospheric conditions leading to floods are not well understood due, among other factors, to the lack of a complete record of floods. Here, the 5 year flood record for Sumatra derived from governmental reports, as well as from crowd-sourcing data, based on Twitter messages and local newspapers' reports, is created and used to analyze atmospheric phenomena responsible for floods.

Radar observations of individual rain drops in the free atmosphere.

Atmospheric remote sensing has played a pivotal role in the increasingly sophisticated representation of clouds in the numerical models used to assess global and regional climate change. This has been accomplished because the underlying bulk cloud properties can be derived from a statistical analysis of the returned microwave signals scattered by a diverse ensemble comprised of numerous cloud hydrometeors. A new Doppler radar, previously used to track small debris particles shed from the NASA space shuttle during launch, is shown to also have the capacity to detect individual cloud hydrometeors in the free atmosphere.

Discrete-dipole approximation for periodic targets: theory and tests.

The discrete-dipole approximation (DDA) is a powerful method for calculating absorption and scattering by targets that have sizes smaller than or comparable to the wavelength of the incident radiation. The DDA can be extended to targets that are singly or doubly periodic. We generalize the scattering amplitude matrix and the 4 x 4 Mueller matrix to describe scattering by singly and doubly periodic targets and show how these matrices can be calculated using the DDA.