Lingbing Bu
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View article: Vertical profiles of raindrop size distribution parameters of summer rainfall in the eastern Tibetan Plateau: retrieval method and characteristics
Vertical profiles of raindrop size distribution parameters of summer rainfall in the eastern Tibetan Plateau: retrieval method and characteristics Open
The eastern Tibetan Plateau has a high elevation, with a cold and dry atmospheric background. The features of the raindrop size distributions (DSD) in this region have notable differences from those in the plains. The general empirical rel…
View article: Estimation of diurnal emissions of CO <sub>2</sub> from thermal power plants using spaceborne integrated path differential absorption (IPDA) lidar
Estimation of diurnal emissions of CO <sub>2</sub> from thermal power plants using spaceborne integrated path differential absorption (IPDA) lidar Open
Coal-fired power plants are a major source of global carbon emissions, and accurately accounting for these significant emission sources is crucial in addressing global warming. Many previous studies have used Gaussian plume models to estim…
View article: The Application of the Convective–Stratiform Classification Algorithm for Feature Detection in Polarimetric Radar Variables and QPE Retrieval During Warm-Season Convection
The Application of the Convective–Stratiform Classification Algorithm for Feature Detection in Polarimetric Radar Variables and QPE Retrieval During Warm-Season Convection Open
Feature detection is one of the hot topics in the weather radar research community. This study employed a convective–stratiform classification algorithm to detect features in polarimetric radar variables and Quantitative Precipitation Esti…
View article: High-Precision Rayleigh Doppler Lidar with Fiber Solid-State Cascade Amplified High-Power Single-Frequency Laser for Wind Measurement
High-Precision Rayleigh Doppler Lidar with Fiber Solid-State Cascade Amplified High-Power Single-Frequency Laser for Wind Measurement Open
We introduce a novel Rayleigh Doppler lidar (RDLD) system that utilizes a high-power single-frequency laser with over 60 W average output power, achieved through fiber solid-state cascade amplification. This lidar represents a significant …
View article: Measurement of CO<sub>2</sub> Column Concentration Above Cloud Tops With a Spaceborne IPDA Lidar
Measurement of CO<sub>2</sub> Column Concentration Above Cloud Tops With a Spaceborne IPDA Lidar Open
The Atmospheric Environment Monitoring Satellite (AEMS), launched by China in 2022, was equipped with active remote sensing lidar for carbon monitoring. It adopts the Integrated Path Differential Absorption (IPDA) technology to monitor glo…
View article: Estimation of diurnal emissions of CO <sub>2</sub> from thermal power plants using spaceborne IPDA lidar
Estimation of diurnal emissions of CO <sub>2</sub> from thermal power plants using spaceborne IPDA lidar Open
Coal-fired power plants are a major source of global carbon emissions, and accurately accounting for these significant emission sources is crucial in addressing global warming. Many previous studies have used Gaussian plume models to estim…
View article: The First Validation of Aerosol Optical Parameters Retrieved from the Terrestrial Ecosystem Carbon Inventory Satellite (TECIS) and Its Application
The First Validation of Aerosol Optical Parameters Retrieved from the Terrestrial Ecosystem Carbon Inventory Satellite (TECIS) and Its Application Open
In August 2022, China successfully launched the Terrestrial Ecosystem Carbon Inventory Satellite (TECIS). The primary payload of this satellite is an onboard multi-beam lidar system, which is capable of observing aerosol optical parameters…
View article: Simulation and detection efficiency analysis for measurements of polar mesospheric clouds using a spaceborne wide-field-of-view ultraviolet imager
Simulation and detection efficiency analysis for measurements of polar mesospheric clouds using a spaceborne wide-field-of-view ultraviolet imager Open
The variation trends and characteristics of polar mesospheric clouds (PMCs) are important for studying the evolution of atmospheric systems and understanding various atmospheric dynamic processes. Through observation and analysis of PMCs, …
View article: Aerosol optical property measurement using the orbiting high-spectral-resolution lidar on board the DQ-1 satellite: retrieval and validation
Aerosol optical property measurement using the orbiting high-spectral-resolution lidar on board the DQ-1 satellite: retrieval and validation Open
The Atmospheric Environment Monitoring Satellite (AEMS), also called Daqi-1 or DQ-1, was launched in April 2022; one of its main payloads is a high-spectral-resolution lidar (HSRL) system. This new system enables the accurate measurements …
View article: Comment on amt-2023-186
Comment on amt-2023-186 Open
Abstract. The variation trends and characteristics of polar mesospheric clouds (PMCs) are important for studying the evolution of atmospheric systems and understanding various atmospheric dynamic processes. Through observation and analysis…
View article: Comment on amt-2023-186
Comment on amt-2023-186 Open
Abstract. The variation trends and characteristics of polar mesospheric clouds (PMCs) are important for studying the evolution of atmospheric systems and understanding various atmospheric dynamic processes. Through observation and analysis…
View article: Simulation and detection efficiency analysis for polar mesospheric clouds measurements using a spaceborne wide field of view ultraviolet imager
Simulation and detection efficiency analysis for polar mesospheric clouds measurements using a spaceborne wide field of view ultraviolet imager Open
The variation trends and characteristics of polar mesospheric clouds (PMCs) are important for studying the evolution of atmospheric systems and understanding various atmospheric dynamic processes. Through observation and analysis of PMCs, …
View article: Aerosol Optical Properties Measurement using the Orbiting High Spectral Resolution Lidar onboard DQ-1 Satellite: Retrieval and Validation
Aerosol Optical Properties Measurement using the Orbiting High Spectral Resolution Lidar onboard DQ-1 Satellite: Retrieval and Validation Open
The atmospheric environment monitoring satellite DQ-1 was launched in April 2022, which consists of a spaceborne High Spectral Resolution Lidar (HSRL) system. This new system enables the accurate measurements of global aerosol optical prop…
View article: Atmospheric Carbon Dioxide Measurement Using 1.5-µm Double- Pulse IPDA lidar over the Desert
Atmospheric Carbon Dioxide Measurement Using 1.5-µm Double- Pulse IPDA lidar over the Desert Open
The Integrated Path Differential Absorption (IPDA) lidar is capable of accurately measuring regional carbon dioxide (CO 2 ) column concentrations, which is crucial for understanding the carbon cycle in the biosphere and predicting future c…
View article: Simulation and Error Analysis of Methane Detection Globally Using Spaceborne IPDA Lidar
Simulation and Error Analysis of Methane Detection Globally Using Spaceborne IPDA Lidar Open
Methane (CH4) is recognized as the second most important greenhouse gas. An accurate and precise monitoring of methane gas globally has a vital role in studying the carbon cycle and global warming. The spaceborne integrated path differenti…
View article: Monitoring of Atmospheric Carbon Dioxide over Pakistan Using Satellite Dataset
Monitoring of Atmospheric Carbon Dioxide over Pakistan Using Satellite Dataset Open
Satellites are an effective source of atmospheric carbon dioxide (CO2) monitoring; however, city-scale monitoring of atmospheric CO2 through space-borne observations is still a challenging task due to the trivial change in atmospheric CO2 …
View article: Monitoring of Atmospheric Carbon Dioxide over a Desert Site Using Airborne and Ground Measurements
Monitoring of Atmospheric Carbon Dioxide over a Desert Site Using Airborne and Ground Measurements Open
Accurate monitoring of atmospheric carbon dioxide (CO2) is of great significance for studying the carbon cycle. Compared to ground observational sites, airborne observations cover a wider area, which help in effectively monitoring the dist…
View article: Development of China's first space-borne high-spectral-resolution lidar: retrieval algorithm and airborne demonstration
Development of China's first space-borne high-spectral-resolution lidar: retrieval algorithm and airborne demonstration Open
Aerosols and clouds greatly affect the Earth's radiation budget and global climate. Light detection and ranging (lidar) has been recognized as a promising active remote sensing technique for the vertical profiles of aerosols and clouds. Ch…
View article: Occurrence and Discrepancy of Surface and Column Mole Fractions of CO2 and CH4 at a Desert Site in Dunhuang, Western China
Occurrence and Discrepancy of Surface and Column Mole Fractions of CO2 and CH4 at a Desert Site in Dunhuang, Western China Open
Carbon dioxide (CO2) and methane (CH4) are the two major radiative forcing factors of greenhouse gases. In this study, surface and column mole fractions of CO2 and CH4 were first measured at a desert site in Dunhuang, west China. The avera…
View article: Neural-network-based estimation of regional-scale anthropogenic CO <sub>2</sub> emissions using an Orbiting Carbon Observatory-2 (OCO-2) dataset over East and West Asia
Neural-network-based estimation of regional-scale anthropogenic CO <sub>2</sub> emissions using an Orbiting Carbon Observatory-2 (OCO-2) dataset over East and West Asia Open
Atmospheric carbon dioxide (CO2) is the most significant greenhouse gas, and its concentration is continuously increasing, mainly as a consequence of anthropogenic activities. Accurate quantification of CO2 is critical for addressing the g…
View article: Atmospheric carbon dioxide measurement from aircraft and comparison with OCO-2 and CarbonTracker model data
Atmospheric carbon dioxide measurement from aircraft and comparison with OCO-2 and CarbonTracker model data Open
Accurate monitoring of atmospheric carbon dioxide (CO2) and its distribution is of great significance for studying the carbon cycle and predicting future climate change. Compared to the ground observational sites, the airborne observations…
View article: Comment on amt-2021-222
Comment on amt-2021-222 Open
Abstract. Atmospheric carbon dioxide (CO2) is the most significant greenhouse gas, and its concentration is continuously increasing, mainly as a consequence of anthropogenic activities. Accurate quantification of CO2 is critical for addres…
View article: Comment on amt-2021-222
Comment on amt-2021-222 Open
Abstract. Atmospheric carbon dioxide (CO2) is the most significant greenhouse gas, and its concentration is continuously increasing, mainly as a consequence of anthropogenic activities. Accurate quantification of CO2 is critical for addres…
View article: Neural Network Based Estimation of Regional Scale Anthropogenic CO <sub>2</sub> Emissions Using OCO-2 Dataset Over East and West Asia
Neural Network Based Estimation of Regional Scale Anthropogenic CO <sub>2</sub> Emissions Using OCO-2 Dataset Over East and West Asia Open
Atmospheric carbon dioxide (CO2) is the most significant greenhouse gas and its concentration is continuously increasing mainly as a consequence of anthropogenic activities. Accurate quantification of CO2 is critical for addressing the glo…
View article: Comment on amt-2021-92, clarifications needed
Comment on amt-2021-92, clarifications needed Open
Abstract. Accurate monitoring of atmospheric carbon dioxide (CO2) and its distribution is of great significance for studying the carbon cycle and predicting future climate change. Compared to the ground observational sites, the airborne ob…