Relevant bibliographies by topics / Ozone calibration

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Ozone calibration'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 February 2022

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Journal articles on the topic "Ozone calibration"

1

Birks, John W., Andrew A. Turnipseed, Peter C. Andersen, et al. "Portable calibrator for NO based on the photolysis of N<sub>2</sub>O and a combined NO<sub>2</sub>∕NO∕O<sub>3</sub> source for field calibrations of air pollution monitors." Atmospheric Measurement Techniques 13, no. 2 (2020): 1001–18. http://dx.doi.org/10.5194/amt-13-1001-2020.

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Abstract. A highly portable calibration source of nitric oxide (NO) based on the photolysis of nitrous oxide (N2O) supplied by 8 or 16 g disposable cartridges is demonstrated to serve as an accurate and reliable transfer standard for the calibration of NO monitors in the field. The instrument provides output mixing ratios in the range 0–1000 ppb with a precision and accuracy better than the greater of 3 ppb or 3 % of the target NO mixing ratio over a wide range of environmental conditions of ambient temperature (8.5–35.0 ∘C), pressure (745–1015 mbar corresponding to 2.7–0.0 km of elevation), and relative humidity (0 %–100 % RH). The combination of the NO calibration source with a previously described ozone calibration source based on the photolysis of oxygen in air provides a new instrument capable of outputting calibrated mixing ratios of NO, ozone (O3), and nitrogen dioxide (NO2), where the NO2 is produced by the stoichiometric gas-phase reaction of NO with O3. The portable NO2/NO/O3 calibration source requires no external gas cylinders and can be used for calibrations of NO, NO2, and O3 instruments for mixing ratios up to 1000, 500, and 1000 ppb, respectively. This portable calibrator may serve as a convenient transfer standard for field calibrations of ozone and NOx air pollution monitors.
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Redondas, Alberto, Saulius Nevas, Alberto Berjón, et al. "Wavelength calibration of Brewer spectrophotometer using a tunable pulsed laser and implications to the Brewer ozone retrieval." Atmospheric Measurement Techniques 11, no. 6 (2018): 3759–68. http://dx.doi.org/10.5194/amt-11-3759-2018.

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Abstract. In this contribution we present the wavelength calibration of the travelling reference Brewer spectrometer of the Regional Brewer Calibration Center for Europe (RBCC-E) at PTB in Braunschweig, Germany. The wavelength calibration is needed for the calculation of the ozone absorption coefficients used by the Brewer ozone algorithm. In order to validate the standard procedure for determining Brewer's wavelength scale, a calibration has been performed by using a tunable laser source at PTB in the framework of the EMRP project ENV59 ATMOZ “Traceability for the total column ozone”. Here we compare these results to those of the standard procedure for the wavelength calibration of the Brewer instrument. Such a comparison allows validating the standard methodology used for measuring the ozone absorption coefficient with respect to several assumptions. The results of the laser-based calibrations reproduces those obtained by the standard operational methodology and shows that there is an underestimation of 0.8 % of the ozone absorption coefficients due to the use of the parametrized slit functions.
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Dobber, M. R., R. J. Dirksen, P. F. Levelt, et al. "Ozone monitoring instrument calibration." IEEE Transactions on Geoscience and Remote Sensing 44, no. 5 (2006): 1209–38. http://dx.doi.org/10.1109/tgrs.2006.869987.

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Bluvshtein, Nir, J. Michel Flores, Quanfu He, et al. "Calibration of a multi-pass photoacoustic spectrometer cell using light-absorbing aerosols." Atmospheric Measurement Techniques 10, no. 3 (2017): 1203–13. http://dx.doi.org/10.5194/amt-10-1203-2017.

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Abstract. The multi-pass photoacoustic spectrometer (PAS) is an important tool for the direct measurement of light absorption by atmospheric aerosol. Accurate PAS measurements heavily rely on accurate calibration of their signal. Ozone is often used for calibrating PAS instruments by relating the photoacoustic signal to the absorption coefficient measured by an independent method such as cavity ring down spectroscopy (CRD-S), cavity-enhanced spectroscopy (CES) or an ozone monitor. We report here a calibration method that uses measured absorption coefficients of aerosolized, light-absorbing organic materials and offer an alternative approach to calibrate photoacoustic aerosol spectrometers at 404 nm. To implement this method, we first determined the complex refractive index of nigrosin, an organic dye, using spectroscopic ellipsometry and then used this well-characterized material as a standard material for PAS calibration.
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Mauersberger, K., D. Hanson, and J. Morton. "Precision ozone calibration system based on vapor pressures of ozone." Review of Scientific Instruments 58, no. 6 (1987): 1063–66. http://dx.doi.org/10.1063/1.1139608.

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Barcelo-Ordinas, Jose M., Pau Ferrer-Cid, Jorge Garcia-Vidal, Anna Ripoll, and Mar Viana. "Distributed Multi-Scale Calibration of Low-Cost Ozone Sensors in Wireless Sensor Networks." Sensors 19, no. 11 (2019): 2503. http://dx.doi.org/10.3390/s19112503.

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New advances in sensor technologies and communications in wireless sensor networks have favored the introduction of low-cost sensors for monitoring air quality applications. In this article, we present the results of the European project H2020 CAPTOR, where three testbeds with sensors were deployed to capture tropospheric ozone concentrations. One of the biggest challenges was the calibration of the sensors, as the manufacturer provides them without calibrating. Throughout the paper, we show how short-term calibration using multiple linear regression produces good calibrated data, but instead produces biases in the calculated long-term concentrations. To mitigate the bias, we propose a linear correction based on Kriging estimation of the mean and standard deviation of the long-term ozone concentrations, thus correcting the bias presented by the sensors.
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Dandocsi, Alexandru, Anca Nemuc, Doina Nicolae, Livio Belegante, Alexander Cede, and Martin Tiefengraber. "Aerosol Field Influence on the Retrieval of the Ozone Vertical Column Densities from Pandora 2S Measurements." EPJ Web of Conferences 237 (2020): 03002. http://dx.doi.org/10.1051/epjconf/202023703002.

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Total ozone and other trace gases are measured and reported regularly due to the increased interest started with the ozone hole discovery but the new satellites dedicated to worldwide observations of these species need both short-and long-term well calibrated ground based observation for validation procedures. The ESA/NASA Pandora network established a sophisticated, automatic calibration procedure that utilizes a variety of narrow-line and broadband emission lamps with temperature control for their UV-Vis-NIR spectroradiometers. In this study, we describe additional calibration efforts for ozone retrievals. In this paper we explore the local aerosol field influence on the retrieval of the ozone spectra from PANDORA 2S measurements using collocated lidar and sunphotometer measurements and proposed a methodology to be implemented in the calibration procedure of the instruments.
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DeLand, M. T., S. L. Taylor, L. K. Huang, and B. L. Fisher. "Calibration of the SBUV version 8.6 ozone data product." Atmospheric Measurement Techniques 5, no. 11 (2012): 2951–67. http://dx.doi.org/10.5194/amt-5-2951-2012.

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Abstract. This paper describes the calibration process for the Solar Backscatter Ultraviolet (SBUV) Version 8.6 (V8.6) ozone data product. Eight SBUV instruments have flown on NASA and NOAA satellites since 1970, and a continuous data record is available since November 1978. The accuracy of ozone trends determined from these data depends on the calibration and long-term characterization of each instrument. V8.6 calibration adjustments are determined at the radiance level, and do not rely on comparison of retrieved ozone products with other instruments. The primary SBUV instrument characterization is based on prelaunch laboratory tests and dedicated on-orbit calibration measurements. We supplement these results with "soft" calibration techniques using carefully chosen subsets of radiance data and information from the retrieval algorithm output to validate each instrument's calibration. The estimated long-term uncertainty in albedo is approximately ±0.8–1.2% (1σ) for most of the instruments. The overlap between these instruments and the Shuttle SBUV (SSBUV) data allows us to intercalibrate the SBUV instruments to produce a coherent V8.6 data set covering more than 32 yr. The estimated long-term uncertainty in albedo is less than 3% over this period.
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DeLand, M. T., S. L. Taylor, L. K. Huang, and B. L. Fisher. "Calibration of the SBUV version 8.6 ozone data product." Atmospheric Measurement Techniques Discussions 5, no. 4 (2012): 5151–203. http://dx.doi.org/10.5194/amtd-5-5151-2012.

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Abstract. This paper describes the calibration process for the Solar Backscatter Ultraviolet (SBUV) Version 8.6 (V8.6) ozone data product. Eight SBUV instruments have flown on NASA and NOAA satellites since 1970, and a continuous data record is available since November 1978. The accuracy of ozone trends determined from these data depends on the calibration and long-term characterization of each instrument. V8.6 calibration adjustments are determined at the radiance level, and do not rely on comparison of retrieved ozone products with other instruments. The primary SBUV instrument characterization is based on prelaunch laboratory tests and dedicated on-orbit calibration measurements. We supplement these results with "soft" calibration techniques using carefully chosen subsets of radiance data and information from the retrieval algorithm output to validate each instrument's calibration. The estimated long-term uncertainty in albedo is approximately ±0.8–1.2% (1σ) for most of the instruments. The overlap between these instruments and the Shuttle SBUV (SSBUV) data allows us to intercalibrate the SBUV instruments to produce a coherent V8.6 data set covering more than 32 yr. The estimated long-term uncertainty in albedo is less than 3% over this period.
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Davies, Nicholas W., Michael I. Cotterell, Cathryn Fox, Kate Szpek, Jim M. Haywood, and Justin M. Langridge. "On the accuracy of aerosol photoacoustic spectrometer calibrations using absorption by ozone." Atmospheric Measurement Techniques 11, no. 4 (2018): 2313–24. http://dx.doi.org/10.5194/amt-11-2313-2018.

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Abstract. In recent years, photoacoustic spectroscopy has emerged as an invaluable tool for the accurate measurement of light absorption by atmospheric aerosol. Photoacoustic instruments require calibration, which can be achieved by measuring the photoacoustic signal generated by known quantities of gaseous ozone. Recent work has questioned the validity of this approach at short visible wavelengths (404 nm), indicating systematic calibration errors of the order of a factor of 2. We revisit this result and test the validity of the ozone calibration method using a suite of multipass photoacoustic cells operating at wavelengths 405, 514 and 658 nm. Using aerosolised nigrosin with mobility-selected diameters in the range 250–425 nm, we demonstrate excellent agreement between measured and modelled ensemble absorption cross sections at all wavelengths, thus demonstrating the validity of the ozone-based calibration method for aerosol photoacoustic spectroscopy at visible wavelengths.
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Dissertations / Theses on the topic "Ozone calibration"

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Garaud, Damien. "Estimation des incertitudes et prévision des risques en qualité de l'air." Thesis, Paris Est, 2011. http://www.theses.fr/2011PEST1162/document.

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Ce travail porte sur l'estimation des incertitudes et la prévision de risques en qualité de l'air. Il consiste dans un premier temps à construire un ensemble de simulations de la qualité de l'air qui prend en compte toutes les incertitudes liées à la modélisation de la qualité de l'air. Des ensembles de simulations photochimiques à l'échelle continentale ou régionale sont générés automatiquement. Ensuite, les ensembles générés sont calibrés par une méthode d'optimisation combinatoire qui sélectionne un sous-ensemble représentatif de l'incertitude ou performant (fiabilité et résolution) pour des prévisions probabilistes. Ainsi, il est possible d'estimer et de prévoir des champs d'incertitude sur les concentrations d'ozone ou de dioxyde d'azote, ou encore d'améliorer la fiabilité des prévisions de dépassement de seuil. Cette approche est ensuite comparée avec la calibration d'un ensemble Monte Carlo. Ce dernier, moins dispersé, est moins représentatif de l'incertitude. Enfin, on a pu estimer la part des erreurs de mesure, de représentativité et de modélisation de la qualité de l'air<br>This work is about uncertainty estimation and risk prediction in air quality. Firstly, we need to build an ensemble of air quality simulations which can take into account all uncertainty sources related to air quality modeling. Ensembles of photochemical simulations at continental and regional scales are automatically built. Then, these generated ensemble are calibrated with a combinatorial optimization method. It selects a sub-ensemble which is representative of uncertainty or has good resolution and reliability of probabilistic forecasts. Thus, this work show that it is possible to estimate and forecast uncertainty fields related to ozone and nitrogen dioxide concentrations or to improve reliability related to the threshold exceedance prediction. This approach is compared with Monte Carlo ensemble calibration. This ensemble is less representative of uncertainty. Finally, we can estimate the part of the measure error, representativity error and modeling error in air quality
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Davies, Nicholas William. "The climate impacts of atmospheric aerosols using in-situ measurements, satellite retrievals and global climate model simulations." Thesis, University of Exeter, 2018. http://hdl.handle.net/10871/34544.

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Aerosols contribute the largest uncertainty to estimates of radiative forcing of the Earth’s atmosphere, which are thought to exert a net negative radiative forcing, offsetting a potentially significant but poorly constrained fraction of the positive radiative forcing associated with greenhouse gases. Aerosols perturb the Earth’s radiative balance directly by absorbing and scattering radiation and indirectly by acting as cloud condensation nuclei, altering cloud albedo and potentially cloud lifetime. One of the major factors governing the uncertainty in estimates of aerosol direct radiative forcing is the poorly constrained aerosol single scattering albedo, which is the ratio of the aerosol scattering to extinction. In this thesis, I describe a new instrument for the measurement of aerosol optical properties using photoacoustic and cavity ring-down spectroscopy. Characterisation is performed by assessing the instrument minimum sensitivity and accuracy as well as verifying the accuracy of its calibration procedure. The instrument and calibration accuracies are assessed by comparing modelled to measured optical properties of well-characterised laboratory-generated aerosol. I then examine biases in traditional, filter-based absorption measurements by comparing to photoacoustic spectrometer absorption measurements for a range of aerosol sources at multiple wavelengths. Filter-based measurements consistently overestimate absorption although the bias magnitude is strongly source-dependent. Biases are consistently lowest when an advanced correction scheme is applied, irrespective of wavelength or aerosol source. Lastly, I assess the sensitivity of the direct radiative effect of biomass burning aerosols to aerosol and cloud optical properties over the Southeast Atlantic Ocean using a combination of offline radiative transfer modelling, satellite observations and global climate model simulations. Although the direct radiative effect depends on aerosol and cloud optical properties in a non-linear way, it appears to be only weakly dependent on sub-grid variability.
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Books on the topic "Ozone calibration"

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Wellemeyer, C. G. Final report on Nimbus-7 TOMS: Version 7 calibration. Goddard Space Flight Center, 1996.

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2

Bressette, Walter E. Calibration of the Spin-Scan Ozone Imager aboard the Dynamics Explorer 1 satellite. Langley Research Center, 1987.

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3

M, Keating Gerald, Young David F, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Office., eds. Calibration of the spin-scan ozone imager aboard the Dynamics Explorer 1 satellite. National Aeronautics and Space Administration, Scientific and Technical Information Office, 1987.

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M, Keating Gerald, Young David F, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Office., eds. Calibration of the spin-scan ozone imager aboard the Dynamics Explorer 1 satellite. National Aeronautics and Space Administration, Scientific and Technical Information Office, 1987.

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M, Keating Gerald, Young David F, and United States. National Aeronautics and Space Administration. Scientific and Technical Information Office., eds. Calibration of the spin-scan ozone imager aboard the Dynamics Explorer 1 satellite. National Aeronautics and Space Administration, Scientific and Technical Information Office, 1987.

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United States. National Aeronautics and Space Administration., ed. Nimbus/TOMS science data operations support: Final report, July 1992 - May 1998, NASA contract no. NAS5-31755. Raytheon STX Corp., 1998.

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Book chapters on the topic "Ozone calibration"

1

Park, H., and D. F. Heath. "Nimbus 7 SBUV/TOMS Calibration for the Ozone Measurement." In Atmospheric Ozone. Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5313-0_83.

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Grass, R. D., and W. D. Komhyr. "Traveling Standard Lamp Calibration Checks on Dobson Ozone Spectrophotometers during 1981–83." In Atmospheric Ozone. Springer Netherlands, 1985. http://dx.doi.org/10.1007/978-94-009-5313-0_76.

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Bais, A. F. "Calibration and Characterization of Erythemal Broadband Detectors." In Chemistry and Radiation Changes in the Ozone Layer. Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4353-0_17.

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Al-Obed, Meshari, Sief Uddin, and Ashraf Ramadhan. "Dust Storm Satellite Images." In Atlas of Fallen Dust in Kuwait. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-66977-5_1.

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Abstract DATA of Aerosol Robotic Network (Aeronet) stations and Ozone Monitoring Instrument (OMI) were obtained to get valuable and reliable information about the occurrence of dust events. In addition to Total Ozone Mapping Spectrometer (TOMS) provide informative and long dust events record. To analyze the dust time series, monthly, annual and seasonal linear trends are applied to the dust time series. This is achieved by summing the total number of dusty hours for each month and then the total number of dusty days for the month is calculated. Dust trend analysis includes; annual, winter, spring, summer and autumn with the rate of change. Dust frequency of seasons in days/season before and after sorting in a descending manner from 1984 to 2013. Satelliteimagesuse for PM2.5 Estimation and concentrations Remote sensing-based measurements Calibration of Field and Laboratory Equipment. Particle concentrations in different size ranges and the total suspended particulate matter in the air in Kuwait. Dust deposition rates were monitored and analyzed in Kuwait at the northern ArabianGulf to estimate quantities of fallen dust within major eight dust trajectories in the ArabianGulf. Kuwait is surrounded by five major sources of dust rather than intermediate dust source areas that are listed. Satelliteimages from 2000 to 2010 were used to identify major dust trajectories within seven major deserts in the world.
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Alvear, Óscar, Carlos Tavares Calafate, Juan-Carlos Cano, and Pietro Manzoni. "Calibrating Low-End Sensors for Ozone Monitoring." In Internet of Things. IoT Infrastructures. Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-47063-4_24.

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Conference papers on the topic "Ozone calibration"

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Dirksen, Ruud, Marcel Dobber, Robert Voors, Quintus Kleipool, Gijsbertus van den Oord, and Pieternel Levelt. "In-flight calibration of the ozone monitoring instrument." In International Conference on Space Optics 2006, edited by Errico Armandillo, Josiane Costeraste, and Nikos Karafolas. SPIE, 2017. http://dx.doi.org/10.1117/12.2308149.

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Dobber, M., R. Dirksen, P. Levelt, et al. "Ozone monitoring instrument in-flight performance and calibration." In Optical Systems Design 2005, edited by Laurent Mazuray and Rolf Wartmann. SPIE, 2005. http://dx.doi.org/10.1117/12.624212.

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Levelt, Pieternel F., Gijsbertus van den Oord, Marcel Dobber, et al. "Ozone monitoring instrument flight-model on-ground and inflight calibration." In International Conference on Space Optics 2004, edited by Josiane Costeraste and Errico Armandillo. SPIE, 2017. http://dx.doi.org/10.1117/12.2308017.

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Park, Hongwoo, Arlin J. Krueger, Ernest Hilsenrath, Glen Jaross, and Robert E. Haring. "Radiometric calibration of second-generation Total Ozone Mapping Spectrometer (TOMS)." In SPIE's 1996 International Symposium on Optical Science, Engineering, and Instrumentation, edited by William L. Barnes. SPIE, 1996. http://dx.doi.org/10.1117/12.258098.

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Dobber, Marcel, Ruud Dirksen, Pieternel Levelt, et al. "EOS-Aura ozone monitoring instrument in-flight performance and calibration." In SPIE Optics + Photonics, edited by James J. Butler and Jack Xiong. SPIE, 2006. http://dx.doi.org/10.1117/12.677372.

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Li, Yanqiu, Li Yuan, and Bai Tingzhu. "Modeling and seasonal analysis of ozone content in field automatic calibration." In Space Optics, Telescopes and Instrumentation, edited by Suijian Xue, Xuejun Zhang, Ziyang Zhang, and Carl A. Nardell. SPIE, 2019. http://dx.doi.org/10.1117/12.2541625.

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Remund, Quinn P., David Newell, Juan V. Rodriguez, Scott Asbury, and Glen Jaross. "The ozone mapping and profiler suite (OMPS): on-orbit calibration design." In Fourth International Asia-Pacific Environmental Remote Sensing Symposium 2004: Remote Sensing of the Atmosphere, Ocean, Environment, and Space, edited by Si Chee Tsay, Tatsuya Yokota, and Myoung-Hwan Ahn. SPIE, 2004. http://dx.doi.org/10.1117/12.579016.

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Xiong, Xiaozhen, Trevor Beck, and Chunhui Pan. "Status of NOAA-20 Ozone Monitoring Profiler Suite (OMPS) sensor data calibration and evaluation." In Earth Observing Systems XXIV, edited by James J. Butler, Xiaoxiong (Jack) Xiong, and Xingfa Gu. SPIE, 2019. http://dx.doi.org/10.1117/12.2529386.

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Evans, Wayne F., Eldon Puckrin, Denis Dufour, et al. "Calibration of instruments for atmospheric ozone measurements II: the ACE FTS and MAESTRO spectrograph." In Optical Science and Technology, SPIE's 48th Annual Meeting, edited by William L. Barnes. SPIE, 2003. http://dx.doi.org/10.1117/12.507320.

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Park, Hongwoo, Richard D. McPeters, Glen Jaross, Matthew Kowalewski, Scott J. Janz, and Robert E. Haring. "Radiometric calibration of total ozone mapping spectrometer: flight model 5 (TOMS-5) aboard QuickTOMS." In Europto Remote Sensing, edited by Hiroyuki Fujisada, Joan B. Lurie, Alexander Ropertz, and Konradin Weber. SPIE, 2001. http://dx.doi.org/10.1117/12.417127.

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Reports on the topic "Ozone calibration"

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Paur, R. J., A. M. Bass, J. E. Norris, and T. J. Buckley. Standard reference photometer for the assay of ozone in calibration atmospheres. National Institute of Standards and Technology, 2003. http://dx.doi.org/10.6028/nist.ir.6963.

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