Highlights
Actualities
Eva Pokojska
Researcher
Projects & Topics
- Actualities
- CosrayAtmosBios »
Exolife » NaturePhysiol » InfoTopol » Research »
- Space weather & environmental physiology: astrophysical processes/evolution, solar-terrestrial coupling,
(galactic) cosmic rays, ionosphere, atmospheric electricity, photochemistry, dynamics. Biomarkers (photo/redox, air-water-ice/soil, biogeochem).
- (Hyper)spectral remote sensing: atmospheres, biodetection, phenology.
Air-quality,
(extremal) landscapes, survival & constructions.
- Photo/el-bioenergetics, respiratory adaptation, (mitochondrial) respiration
(cyanobact/algae » humans), oxygenation.
- Elm spectra/polarity dynamics, light-matter interaction, relativity, metamaterials.
Complex-/ feedback imaging. Functional materials, (bio)photonic structures,
molecular antenna. (Bio)inorganic catalysis, chiral chromophores.
- Circadian/seasonal/societal dynamics, adaptation/anticipation.
Embryogenesis, differentiation/regeneration, epigenetics.
- Dynamical systems, dissipative/ergodic systems, delays, spacetime-scales.
Topology of manifolds, semilocal & global attractors, transient behavior,
3d-flow image reconstruction.
- Graphs, adaptive connectivity, information & game theory, N-body pb.
Regulatory networks (modeling & analysis), complex input–response,
competitive processes & thinking, dynamic context.
- Relative interaction object-complement. Elm propagation & signaling in (bio)materials.
- Physico-chemical environment vs. consciousness, physiology, development.
- Molecular memory (clocks): independent intracellular oscillators in multi-cellular systems.
- Topology, geometry, and transport delay in coupled systems. (Re)synchronization.
- Spatiotemporal properties of global attractors, adaptive evolution. Materials design.
- Information density, bifurcation parameters in multiscale systems. Boundaries.
- Regulatory strategies in limiting-density populations: typical/rare, failing/successful.
- Rescaling finite-time invariant sets: reconstructing past, predicting future.
Questions
- Space geometry, evolution, time & clock. Can we understand holographic information 'formed' in heterogeneous, multiscale elm/vibr scattering environment (atmosphere+, water/ocean, snow-ice)? How such information is propagated, distributed, ?stored, and made accessible in growth/decay-structured systems? How to balance availability and efficiency when managing heterogeneous information/energy sources? What global advantages brings anticipative vs. adaptive harvesting of elm/vibr-spectrum (bio, econ)? In multicellular systems, how intracellular clocks are used, and kept synchronized (& what's the environmental drive)? Can we design adaptive materials based on theoretical knowledge on systems, matter, and information processing? What is the interplay of cooperativity, transport delay, and 3d-diffusion in systems of coupled oscillators? Where can we use our knowledge and understanding to optimize human/societal interaction with ecosystems, environment, and celestial-driven climate? How to achieve more heterogenous distribution of societies, tech-tools, and their (autonomous) energy harvest?
QuickLinks
- BiblioCVis,
ISBE CAS,
MaxPlanck MIS,
Inst JMonod,
IMath Jussieu,
MSRI DynSyst,
CDGpenn
- inist,
MathSciNet,
Zentralblatt,
arXiv,
Scit,
physWebOrg,
DSWeb,
Scholar,
Wiki,
Google
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