Azadeh Tabazadeh
#44,229
Most Influential Person Now
Geophysicist from Iran
Azadeh Tabazadeh's AcademicInfluence.com Rankings
Azadeh Tabazadehearth-sciences Degrees
Earth Sciences
#2775
World Rank
#3726
Historical Rank
Geophysics
#365
World Rank
#414
Historical Rank
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Earth Sciences
Azadeh Tabazadeh's Degrees
- PhD Geophysics University of Tehran
- Masters Geophysics University of Tehran
- Bachelors Physics University of Tehran
Why Is Azadeh Tabazadeh Influential?
(Suggest an Edit or Addition)According to Wikipedia, Azadeh Tabazadeh is an Iranian geophysicist and author known for her work in atmospheric science, work which has improved our understanding of the reactions that affect ozone depletion and highlighted the impact human activity has on the atmosphere.
Azadeh Tabazadeh's Published Works
Number of citations in a given year to any of this author's works
Total number of citations to an author for the works they published in a given year. This highlights publication of the most important work(s) by the author
Published Works
- Distribution and fate of selected oxygenated organic species in the troposphere and lower stratosphere over the Atlantic (2000) (261)
- A study of type I polar stratospheric cloud formation (1994) (226)
- Stratospheric Chlorine Injection by Volcanic Eruptions: HCI Scavenging and Implications for Ozone (1993) (202)
- Surface crystallization of supercooled water in clouds (2002) (195)
- Simulating equilibrium within aerosols and nonequilibrium between gases and aerosols (1996) (190)
- A model for studying the composition and chemical effects of stratospheric aerosols (1994) (140)
- Ice nucleation processes in upper tropospheric wave‐clouds observed during SUCCESS (1998) (134)
- A conceptual model of the dehydration of air due to freeze‐drying by optically thin, laminar cirrus rising slowly across the tropical tropopause (2001) (114)
- Nitric acid scavenging by mineral and biomass burning aerosols (1998) (109)
- Oxygenated volatile organic chemicals in the oceans: Inferences and implications based on atmospheric observations and air‐sea exchange models (2003) (104)
- A new parameterization of H2SO4/H2O aerosol composition: Atmospheric implications (1997) (104)
- A model for heterogeneous chemical processes on the surfaces of ice and nitric acid trihydrate particles (1993) (101)
- Molecular theory of vapor phase nucleation: The physically consistent cluster (1990) (92)
- Analysis of the physical state of one Arctic polar stratospheric (1994) (91)
- Analysis of lidar observations of Arctic polar stratospheric clouds during January 1989 (2000) (86)
- Laboratory Evidence for Surface Nucleation of Solid Polar Stratospheric Cloud Particles (2002) (81)
- Organic aggregate formation in aerosols and its impact on the physicochemical properties of atmospheric particles (2005) (80)
- Thermodynamic Conditions for the Surface-Stimulated Crystallization of Atmospheric Droplets (2002) (75)
- Role of the Stratospheric Polar Freezing Belt in Denitrification (2001) (71)
- Freezing behavior of stratospheric sulfate aerosols inferred from trajectory studies (1995) (64)
- The presence of metastable HNO3/H2O solid phases in the stratosphere inferred from ER 2 data (1996) (62)
- Formation and implications of ice particle nucleation in the stratosphere (1997) (57)
- The role of ammoniated aerosols in cirrus cloud nucleation (1998) (55)
- UARS Microwave Limb Sounder HNO3 observations: Implications for Antarctic polar stratospheric clouds (1998) (54)
- Observational constraints on the formation of type ia polar stratospheric clouds (1996) (53)
- High humidities and subvisible cirrus near the tropical tropopause (1999) (53)
- A model description for cirrus cloud nucleation from homogeneous freezing of sulfate aerosols (1997) (51)
- A surface chemistry model for nonreactive trace gas adsorption on ice: Implications for nitric acid scavenging by cirrus (1999) (48)
- Evaluating the role of NAT, NAD, and liquid H2SO4/H2O/HNO3 solutions in Antarctic polar stratospheric cloud aerosol: Observations and implications (1997) (48)
- The effect of particle size and nitric acid uptake on the homogeneous freezing of aqueous sulfuric acid particles (2000) (46)
- Arctic “ozone hole” in a cold volcanic stratosphere (2002) (43)
- Measuring and modeling the composition and temperature-dependence of surface tension for organic solutions (2010) (39)
- Heterogeneous chemistry involving methanol in tropospheric clouds (2004) (34)
- In‐situ observations of an Antarctic polar stratospheric cloud: Similarities with Arctic observations (1996) (33)
- Impact of polar stratospheric cloud particle composition, number density, and lifetime on denitrification (2002) (32)
- Thermodynamics of crystal nucleation in multicomponent droplets: Adsorption, dissociation, and surface-stimulated nucleation (2003) (31)
- Effect of adsorption on the uptake of organic trace gas by cloud droplets (2003) (30)
- Observational evidence against mountain‐wave generation of ice nuclei as a prerequisite for the formation of three solid nitric acid polar stratospheric clouds observed in the Arctic in early December 1999 (2004) (29)
- Simultaneous observations of polar stratospheric clouds and HNO3 over Scandinavia in January, 1992 (1997) (29)
- Hygroscopic growth of common organic aerosol solutes, including humic substances, as derived from water activity measurements (2011) (28)
- Stratospheric cooling and arctic ozone recovery (1998) (23)
- A parameterization of an aerosol physical chemistry model for the NH3/H2SO4/HNO3/H2O system at cold temperatures (2001) (19)
- Trajectory Hunting: A Case Study of Rapid Chlorine Activation in December 1992 as Seen by UARS (2000) (17)
- A Lagrangian approach to studying Arctic polar stratospheric clouds using UARS MLS HNO3 and POAM II aerosol extinction measurements (2002) (16)
- Commentary on ''Homogeneous nucleation of NAD and NAT in liquid stratospheric aerosols: insufficient to explain denitrification (2003) (13)
- Rate of organic film formation and oxidation on aqueous drops (2008) (11)
- Investigation of polar stratospheric cloud solid particle formation mechanisms using ILAS and AVHRR observations in the Arctic (2004) (10)
- The effect of nitric acid uptake on the deliquescence and efflorescence of binary ammoniated salts in the upper troposphere (2002) (9)
- New Directions: Stratospheric ozone recovery in a changing atmosphere (2004) (9)
- Heterogeneous Chemistry of Polar Stratospheric Clouds and Volcanic Aerosols (1993) (9)
- Polar Stratospheric Ozone (2003) (8)
- On the growth of ternary system HNO3/H2SO4/H2O aerosol particles in the stratosphere (1996) (8)
- Influence of the heterogeneous reaction HCl + HOCl on an ozone hole model with hydrocarbon additions (1994) (8)
- Liquid ternary aerosols of HNO3/H2SO4/H2O in the Arctic tropopause region (2004) (7)
- UARS MLS HNO(sub 3) Observations: Implications for Antarctic PSCs (1997) (6)
- Effect of Adsorption on Crystal Nucleation in Binary Droplets: Implication for the Formation of Nitric Acid Hydrate Particles (2004) (5)
- Comment on "Do NAD and NAT form in liquid stratospheric aerosols by pseudoheterogeneous nucleation?". (2007) (4)
- Correction [to “A study of type I polar stratospheric cloud formation,”] (1994) (2)
- A Report of Findings and Recommendations — Executive Summary. Workshop on the Impact of Aviation on Climate Change, June 7-9, 2006, Boston, MA (2006) (2)
- Homogenous Surface Nucleation of Solid Polar Stratospheric Cloud Particles (2002) (1)
- Inferring PSC Composition in the Arctic from UARS MLS HNO3 and POAM II Aerosol Extinction Measurements (2000) (1)
- Water Activity Limits the Hygroscopic Growth Factor of Organic Aerosols (2007) (1)
- Pros And Cons Of Technology In Advancing Research In Atmospheric Sciences (2002) (0)
- Effects of Aerosol Composition and Temperature on Surface Tension (2009) (0)
- Simulations of the Vertical Redistribution of HNO3 by NAT or NAD PSCs: The Sensitivity to the Number of Cloud Particles Formed and the Cloud Lifetime (2000) (0)
- Volcanoes, Polar Clouds and Arctic Ozone (2001) (0)
- Angelopoulos, Schrag, and Tabazadeh receive 2001 James B. Macelwane Medal (2002) (0)
- A Method for Determining Hygroscopic Growth Factor for Organic Aerosols From Vapor Pressure Experiments (2008) (0)
- Stratospheric Cooling and Arctic Ozone Recovery. Appendix L (1998) (0)
- Trajectory Hunting: Analysis of UARS Measurements showing Rapid Chlorine Activation (1998) (0)
- Microwave Limb Sounder HNO(sub 3) Observations: Implications for Polar Stratospheric Cloud Compositions (1996) (0)
- Uptake on Homogeneous Sulfate Freezing 2. J. Lin and A. Tabazadeh, Cirrus Nucleation from Mixed-phase Particles, AGU2000 Conference, Boston MA USA Spring 2000 1. Lin, J.S, A Comparison of Liquid Aerosol Composition Models in the Lower Stratosphere (0)
- Uptake on Homogeneous Sulfate Freezing 2. J. Lin and A. Tabazadeh, Cirrus Nucleation from Mixed-phase Particles, AGU2000 Conference, Boston MA USA Spring 2000 1. Lin, J.S, A Comparison of Liquid Aerosol Composition Models in the Lower Stratosphere (0)
- Observational Evidence Against Mountain Wave Generation of Ice Clouds Leading to the Formation of NAT Clouds in Early December 1999 Within the Arctic Vortex (2003) (0)
- Simulations of Polar Stratospheric Clouds and Denitrification Using Laboratory Freezing Rates (2001) (0)
- Freezing behavior of stratospheric inferred from trajectory studies (1995) (0)
- Organic colloids in atmospheric particles (2006) (0)
- Inferring PSC Composition in the Arctic From UARS MLS HNO(sub 3) and POAM II Aerosol Extinction Data (2000) (0)
- Surface Crystallization of Cloud Droplets: Implications for Climate Change and Ozone Depletion (2002) (0)
- Interesting Scientific Questions Regarding Interactions in the Gas-aerosol-cloud System (2002) (0)
- Stratospheric Polar Freezing Belt Causes Denitrification (2001) (0)
- The rate of organic film formation on aqueous drops (2007) (0)
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What Schools Are Affiliated With Azadeh Tabazadeh?
Azadeh Tabazadeh is affiliated with the following schools:
