B. P. Luo spends much of his time researching Atmospheric sciences, Stratosphere, Aerosol, Inorganic chemistry and Ice nucleus. He integrates many fields in his works, including Atmospheric sciences and Environmental science. The concepts of his Stratosphere study are interwoven with issues in Synoptic scale meteorology and Lidar.
B. P. Luo interconnects Phase, Aqueous solution and Mesoscale meteorology in the investigation of issues within Aerosol. While the research belongs to areas of Inorganic chemistry, B. P. Luo spends his time largely on the problem of Particle number, intersecting his research to questions surrounding Cirrus and Troposphere. His Ice nucleus research includes themes of Crystallography, Aerosol mass spectrometry and Oxalic acid.
His main research concerns Atmospheric sciences, Stratosphere, Environmental science, Aerosol and Cirrus. Particularly relevant to Troposphere is his body of work in Atmospheric sciences. His Stratosphere study combines topics in areas such as Saturation, Altitude, Ozone and Nucleation.
His Aerosol study incorporates themes from Absorption, Sulfuric acid and Thermodynamic equilibrium. His Cirrus study combines topics from a wide range of disciplines, such as Phase, Ice crystals, Ice cloud, Radiative forcing and Tropical tropopause. His work focuses on many connections between Phase and other disciplines, such as Aqueous solution, that overlap with his field of interest in Volume and Frost.
Atmospheric sciences, Environmental science, Stratosphere, Aerosol and Lidar are his primary areas of study. His research in Atmospheric sciences intersects with topics in Amplitude and Ice nucleus. His Ice nucleus study integrates concerns from other disciplines, such as Climatology, Troposphere and Water vapor.
B. P. Luo frequently studies issues relating to Nucleation and Stratosphere. His Aerosol research is multidisciplinary, incorporating perspectives in Molecular physics and Thermodynamic equilibrium. B. P. Luo has included themes like Middle latitudes and Extinction in his Cirrus study.
B. P. Luo mainly investigates Atmospheric sciences, Troposphere, Aerosol, Ice nucleus and Lidar. B. P. Luo works in the field of Atmospheric sciences, focusing on Cirrus in particular. His Cirrus research is multidisciplinary, incorporating elements of Middle latitudes and Radiosonde.
His Lidar research integrates issues from Denitrification, Spectrometer, Nucleation and Particle size. B. P. Luo interconnects Humidity and Thermal diffusivity in the investigation of issues within Chemical physics. In his works, B. P. Luo conducts interdisciplinary research on Forward scatter and Stratosphere.
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Stratospheric aerosol growth and HNO3 gas phase depletion from coupled HNO3 and water uptake by liquid particles
K. S. Carslaw;B. P. Luo;S. L. Clegg;Th. Peter.
Geophysical Research Letters (1994)
A thermodynamic model of mixed organic-inorganic aerosols to predict activity coefficients
A. Zuend;C. Marcolli;B. P. Luo;Th. Peter.
Atmospheric Chemistry and Physics (2008)
Unprecedented evidence for deep convection hydrating the tropical stratosphere
T. Corti;B. P. Luo;M. de Reus;D. Brunner.
Geophysical Research Letters (2008)
The Impact of Geoengineering Aerosols on Stratospheric Temperature and Ozone
P. Heckendorn;D. Weisenstein;Stephan Andreas Fueglistaler;B. P. Luo.
Environmental Research Letters (2009)
Particle microphysics and chemistry in remotely observed mountain polar stratospheric clouds
Kenneth S. Carslaw;Martin Wirth;A. Tsias;B.P. Luo.
Journal of Geophysical Research (1998)
Heterogeneous Ice Nucleation Rate Coefficient of Water Droplets Coated by a Nonadecanol Monolayer
B. Zobrist;Thomas Koop;B. P. Luo;C. Marcolli.
Journal of Physical Chemistry C (2007)
Nitric Acid Trihydrate (NAT) formation at low NAT supersaturation in Polar Stratospheric Clouds (PSCs)
C. Voigt;H. Schlager;B. P. Luo;A. Dörnbrack.
Atmospheric Chemistry and Physics (2005)
The impact of cirrus clouds on tropical troposphere-to-stratosphere transport
T. Corti;B. P. Luo;Qinjun Fu;H. Vömel.
Atmospheric Chemistry and Physics (2006)
Technical Note: Chemistry-climate model SOCOL: version 2.0 with improved transport and chemistry/microphysics schemes
M. Schraner;E. Rozanov;C. Schnadt Poberaj;P. Kenzelmann.
Atmospheric Chemistry and Physics (2008)
Measurements of the timescales for the mass transfer of water in glassy aerosol at low relative humidity and ambient temperature
H.-J. Tong;H.-J. Tong;Jonathan P. Reid;David L. Bones;Beiping P. Luo.
Atmospheric Chemistry and Physics (2011)
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