HelioWebRAS St P, Zuev Institute of Atmospheric Optics
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I[RAS St P, Zuev Institute of Atmospheric Optics]
PI["Parent Institutions (1)"]
CI["Child Institutions (0)"]
AW["Affiliated Works (23)"]
CA["Linked Collaborating Authors (6)"]
I== skos:broader ==>PI
CI== skos:broader ==>I
AW== affil ==>I
AW== author ==>CA
click PI "#parent-institutions"
click CI "#child-institutions"
click AW "#affiliated-works"
click CA "#collaborating-authors"
Parent Institutions [?]
Child Institutions [?]
Affiliated Works
sorted by decreasing year, and then by display-name
- CO<SUB>2</SUB> and SO<SUB>2</SUB> IR Line Lists for Venus/Mars and Exo-Planet Atmosphere Studies
- Carbon flux estimation for Siberia by inverse modeling constrained by aircraft and tower CO<SUB>2</SUB> measurements
- Chemical characteristics of Siberian boreal forest fire emissions
- Effect of Atmospheric CO<SUB>2</SUB> Observations in Asia on the Optimization of Surface CO<SUB>2</SUB> Flux
- Ground and aircraft-based methane measurements in Siberia: source attribution using tracers and models
- Long-term Variations of Atmospheric CH<SUB>4</SUB> Concentration over Siberia Derived from Aircraft Observation.
- Lidar investigations of ozone in the upper troposphere - lower stratosphere: technique and results of measurements
- Building Continuous Record of Ice Microphysics by CloudSat-CALIPSO Based on Consistent Ice Particle Models over the Whole Observation Period
- Impact of atmospheric blocking events on the decrease of precipitation in the Selenga River basin
- Dependence of Ozone Formation in the Surface Air Layer from Meteorological Conditions
- Investigation of air composition change in various air masses
- 25 Years of the Institute of Atmospheric Optics SB RAS Tropospheric Ozone Research Station
- Comparison of Distributions of Atmospheric Gas Admixture Concentrations Measured by Remote and In Situ Instruments over the Russian Sector of the Arctic
- Development of near/mid IR differential absorption OPO lidar system for remote gas analysis of the atmosphere
- Estimation of the rate of ozone formation in the atmospheric boundary layer of Western Siberia derived from the airborne measurements
- Influences on Late-Spring and Summertime Tropospheric Ozone in Western Siberia and the Russian Arctic
- Measurements of vertical ozone distribution at Siberian lidar station (56.5oN, 85.0oE) in 2018
- Remote sensing of methane in the atmosphere by the OPO lidar system in 3.30-3.43 μm spectral range
- Siberian and temperate ecosystems shape Northern Hemisphere atmospheric CO<SUB>2</SUB> seasonal amplification
- Top-down Estimates of Methane Emissions in Russia Using Regional Tower Network Observations
- Virtual Research Environment for Transdisciplinary Studies of Northern Eurasia
- Line positions and intensities of CO<SUB>2</SUB> for the HITRAN2020 database: updates and validation tests
- Top-down estimate of the terrestrial carbon balance for northern boreal regions suggests larger carbon sink in Siberia