Investigations of the Diurnal Variation of Vertical HCHO Profiles Based on MAX-DOAS Measurements in Beijing: Comparisons with OMI Vertical Column Data
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Seong-Ho Jang | Hyunkee Hong | Wonei Choi | Jaeyong Ryu | Hitoshi Irie | Hanlim Lee | Junsung Park | S. Jang | H. Irie | Hanlim Lee | H. Hong | J. Ryu | W. Choi | Junsung Park
[1] Johannes Orphal,et al. Revised ultraviolet absorption cross sections of H2CO for the HITRAN database , 2011 .
[2] Dominik Brunner,et al. Eight-component retrievals from ground-based MAX-DOAS observations , 2011 .
[3] D. Blake,et al. Formaldehyde over the central Pacific during PEM‐Tropics B , 2001 .
[4] Steffen Beirle,et al. Inversion of tropospheric profiles of aerosol extinction and HCHO and NO 2 mixing ratios from MAX-DOAS observations in Milano during the summer of 2003 and comparison with independent data sets , 2011 .
[5] U. Platt,et al. Numerical analysis and estimation of the statistical error of differential optical absorption spectroscopy measurements with least-squares methods. , 1996, Applied optics.
[6] Johannes Orphal,et al. ATMOSPHERIC REMOTE-SENSING REFERENCE DATA FROM GOME: PART 1. TEMPERATURE-DEPENDENT ABSORPTION CROSS-SECTIONS OF NO2 IN THE 231–794 nm RANGE , 1998 .
[7] U. Platt,et al. Differential Absorption Spectroscopy , 2008 .
[8] Christoph Kern,et al. Intercomparison of four different in-situ techniques for ambient formaldehyde measurements in urban air , 2005 .
[9] J. Burrows,et al. ATMOSPHERIC REMOTE-SENSING REFERENCE DATA FROM GOME — 2 . TEMPERATURE-DEPENDENT ABSORPTION CROSS SECTIONS OF O 3 IN THE 231 — 794 NM RANGE , 1998 .
[10] Ann Carine Vandaele,et al. Measurements of the NO2 absorption cross-section from 42 000 cm−1 to 10 000 cm−1 (238–1000 nm) at 220 K and 294 K , 1998 .
[11] Trissevgeni Stavrakou,et al. Trend detection in satellite observations of formaldehyde tropospheric columns , 2010 .
[12] K. Chance. OMI Algorithm Theoretical Basis Document Volume IV OMI Trace Gas Algorithms , 2001 .
[13] Formaldehyde production in photochemical smog as predicted by three state-of-the-science chemical oxidant mechanisms , 1990 .
[14] Yugo Kanaya,et al. First retrieval of tropospheric aerosol profiles using MAX-DOAS and comparison with lidar and sky radiometer measurements , 2008 .
[15] K. J. Chun,et al. Retrieval of Aerosol Extinction in the Lower Troposphere Based on UV MAX-DOAS Measurements , 2009 .
[16] Robert J. D. Spurr,et al. Air-mass factor formulation for spectroscopic measurements from satellites: application to formaldeh , 2001 .
[17] J. Burrows,et al. Simultaneous global observations of glyoxal and formaldehyde from space , 2006 .
[18] A. Uchiyama,et al. Evaluation of MAX-DOAS aerosol retrievals by coincident observations using CRDS, lidar, and sky radiometer inTsukuba, Japan , 2015 .
[19] K. Chance,et al. Constraining global isoprene emissions with Global Ozone Monitoring Experiment (GOME) formaldehyde column measurements , 2005 .
[20] Stefan Reis,et al. Emissions of Ozone Precursors , 2000 .
[21] Ulrich Platt,et al. MAX‐DOAS O4 measurements: A new technique to derive information on atmospheric aerosols: 2. Modeling studies , 2006 .
[22] Alexis Merlaud,et al. Ground-based FTIR and MAX-DOAS observations of formaldehyde at Réunion Island and comparisons with satellite and model data , 2009 .
[23] Anthony H. McDaniel,et al. Temperature-Dependent Formaldehyde Cross Sections in the Near-Ultraviolet Spectral Region. , 1990 .
[24] Christian Hermans,et al. MAX-DOAS observations of aerosols, formaldehyde and nitrogen dioxide in the Beijing area: comparison of two profile retrieval approaches , 2014 .
[25] Ulrich Platt,et al. MAX‐DOAS O4 measurements: A new technique to derive information on atmospheric aerosols—Principles and information content , 2004 .
[26] Roderic L. Jones,et al. Rotational Raman scattering and the ring effect in zenith‐sky spectra , 1995 .
[27] Ulrich Platt,et al. Determination of aerosol properties from MAX-DOAS observations of the Ring effect , 2009 .
[28] F. Fehsenfeld,et al. Airborne formaldehyde measurements using PTR-MS: calibration, humidity dependence, inter-comparison and initial results , 2011 .
[29] D. R. Lawson,et al. Formaldehyde Measurement Methods Evaluation and Ambient Concentrations During the Carbonaceous Species Methods Comparison Study , 1990 .
[30] Dietrich Althausen,et al. Retrieval of Aerosol Profiles using Multi-Axis Differential Optical Absorption Spectroscopy (MAX-DOAS) , 2003 .
[31] W. Junkermann,et al. A New Portable Instrument for Continuous Measurement of Formaldehyde in Ambient Air , 2006 .
[32] Jaeyong Ryu,et al. Combined measurements of a UV mini MAX-DOAS system and a TX for retrieval of ambient trace gas mixing ratio: Comparisons with combined RTM and MAX-DOAS methods , 2011 .
[33] Stefan Kraus,et al. DOASIS: a framework design for DOAS , 2006 .
[34] Justus Notholt,et al. Long-term tropospheric formaldehyde concentrations deduced from ground-based fourier transform solar infrared measurements , 2007 .
[35] A. Vandaele,et al. Absorption cross-sections of atmospheric constituents: NO2, O2, and H2O , 1999, Environmental science and pollution research international.
[36] Ingemar Furenlid,et al. Solar flux atlas from 296 to 1300 nm , 1985 .
[37] Clive D Rodgers,et al. Inverse Methods for Atmospheric Sounding: Theory and Practice , 2000 .
[38] Ulrich Platt,et al. Intercomparison of Formaldehyde Measurements in Clean and Polluted Atmospheres , 2000 .
[39] F. Hendrick,et al. Multiple wavelength retrieval of tropospheric aerosol optical properties from MAXDOAS measurements in Beijing , 2010 .
[40] D. Jacob,et al. Analysis of the atmospheric distribution, sources, and sinks of oxygenated volatile organic chemicals based on measurements over the Pacific during TRACE‐P , 2004 .
[41] D. Ehhalt,et al. The tropospheric distribution of formaldehyde during TROPOZ II , 1995 .
[42] Olga Pikelnaya,et al. Intercomparison of multiaxis and long-path differential optical absorption spectroscopy measurements in the marine boundary layer , 2007 .
[43] William T. Potter,et al. Airborne measurements of formaldehyde employing a high-performance tunable diode laser absorption system , 2002, SPIE Optics + Photonics.
[44] John P. Burrows,et al. MAX-DOAS measurements of formaldehyde in the Po-Valley , 2004 .
[45] Jhoon Kim,et al. Remote sensing of tropospheric aerosol using UV MAX-DOAS during hazy conditions in winter: Utilization of O4 Absorption bands at wavelength intervals of 338-368 and 367-393 nm , 2011 .
[46] L. Atzori,et al. Toxicity of Formaldehyde to Human Oral Fibroblasts and Epithelial Cells: Influences of Culture Conditions and Role of Thiol Status , 1998, Journal of dental research.