WMO OSCAR | Details for Instrument Sentinel-4

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Instrument: Sentinel-4

Instrument details

Acronym	Sentinel-4
Full name	UVN: Ultra-violet, Visible and Near-infrared sounder
Purpose	Frequent observation of BrO, HCHO, NO2, O3, SO2 and aerosol; also cloud top height
Short description	Grating spectrometers covering the UV, VIS and NIR spectral bands [see detailed characteristics below]
Background	Embarking Sentinel-4 on Meteosat Third Generation implements the Sentinel-4 component of Copernicus, the European Commission's Earth Observation Programme, previously known as GMES (Global Monitoring for Environment and Security)
Scanning Technique	Mechanical, 3-axis stabilised satellite, E-W continuous, S-N stepping
Resolution	Defined at 45°N, 0°: < 8 km in both N/S and E/W directions
Coverage / Cycle	European area (lat. 30-65°N, long. 30°W to 45°E at lat. 40°N); 60 min repeat cycle over Reference Area which moves from East to West to follow solar illumination during the day
Mass	150 kg	Power	100 W	Data Rate	25 Mbps

Providing Agency	ESA
Instrument Maturity	Demonstrated by simulations
Utilization Period:	2025 to 2045
Last update:	2021-12-13

Detailed characteristics

Spectral ranges	Number of channels	Spectral resolution	SNR at specified input spectral radiance
305-400 nm	600	0.5 nm	200-1400 @ 40-120 W m^-2 sr^-1 μm^-1
400-500 nm	600	0.5 nm	1400 @ 140 W m^-2 sr^-1 μm^-1
755-775 nm	300	0.2 nm	1200 @ 60 W m^-2 sr^-1 μm^-1

Satellites this instrument is flying on

Note: a red tag indicates satellites no longer operational, a green tag indicates operational satellites, a blue tag indicates future satellites

Meteosat Third Generation (MTG) - “I” imaging, “S” sounding (EUMETSAT)
- MTG-S1 (see instrument status) Sep 2025 - 2035
- MTG-S2 (see instrument status) 2035 - 2045

Instrument classification

Earth observation instrument
Passive optical radiometer or spectrometer
Cross-nadir shortwave (UV/VIS) sounder

WIGOS Subcomponents

Subcomponent 1
UV/VIS/NIR sounders [in GEO]
UV/VIS/NIR sounder [in GEO]
Subcomponent 3
NIR spectrometer
NIR spectrometer

Mission objectives

Primary mission objectives

BrO
ClO
H2O
HCHO
HCHO Total Column
NO
NO2
NO2 Total Column
O3
O3 Total Column
SO2
SO2 Total Column

Evaluation of Measurements

The following list indicates which measurements can typically be retrieved from this category of instrument. To see a full Gap Analysis by Variable, click on the respective variable.

Note: table can be sorted by clicking on the column headers
Note: * Primary mission objective.

Variable	Relevance for measuring this variable	Operational limitations	Explanation
Aerosol column burden	2 - very high	Cloud sensitive.. Daylight only.	UV (for absorbing aerosol), VIS and NIR spectrometry including the 760 nm band for high-level aerosol
Aerosol effective radius	2 - very high	Cloud sensitive.. Daylight only.	UV, VIS and NIR spectrometry including the 760 nm band for high-level aerosol
Aerosol mass mixing ratio	2 - very high	Cloud sensitive.. Daylight only.	UV (for absorbing aerosol),, VIS and NIR spectrometry including the 760 nm band for high-level aerosol
Aerosol Optical Depth	2 - very high	Cloud sensitive.. Daylight only.	UV, VIS and NIR spectrometry including the 760 nm band for high-level aerosol
Aerosol type	2 - very high	Cloud sensitive.. Daylight only.	UV (for absorbing aerosol), VIS and NIR spectrometry including the 760 nm band for high-level aerosol
BrO*	1 - primary	Cloud sensitive.. Daylight only.	UV spectrometry. BrO lines around 300 nm. Frequent sampling (GEO) enables monitoring diurnal variations
HCHO*	2 - very high	Cloud sensitive.. Coarse vertical resolution.. Daylight only.	UV spectrometry. HCHO lines around 350 nm. Frequent sampling (GEO) enables monitoring diurnal variations
HCHO Total Column*	2 - very high	Cloud sensitive.. Daylight only.	UV spectrometry. HCHO lines around 350 nm. Frequent sampling (GEO) enables monitoring diurnal variations
ClO*	1 - primary	Cloud sensitive.. Daylight only.	UV Spectrometry. ClO lines around 300 nm Frequent sampling (GEO) enables monitoring diurnal variations
Cloud cover	4 - fair	Daylight only.	VIS and NIR spectroscopy
Cloud drop effective radius	4 - fair	At cloud top.. Daylight only.	VIS and NIR spectrometry
Cloud ice effective radius	4 - fair	At cloud top.. Daylight only.	VIS and NIR spectrometry
Cloud optical depth	4 - fair	Low-density cloud only.. Daylight only.	VIS and NIR spectrometry
Cloud top height	4 - fair	Daylight only.	NIR spectrometry to estimate the total-column O2 above the cloud top as measured around 760 nm
Downward short-wave irradiance at Earth surface	4 - fair	Cloud sensitive.. Highly indirect.. Daylight only.	VIS and NIR spectrometry
Earth surface short-wave bidirectional reflectance	4 - fair	Cloud sensitive.	VIS and NIR spectrometry. GEO sees changing solar incidence angles as daylight progresses
H2O*	3 - high	Cloud sensitive.. Daylight only.	Spectrometry in UV and VIS (several weak bands), and NIR (strong band around 940 nm). Frequent sampling (GEO) for diurnal variations
NO*	2 - very high	Cloud sensitive.. Coarse vertical resolution.. Daylight only.	UV spectrometry. NO lines around 250 nm. Frequent sampling (GEO) enables monitoring diurnal variations
NO2*	2 - very high	Cloud sensitive.. Coarse vertical resolution.. Daylight only.	UV and VIS spectrometry. Several lines in the ranges around 220 nm and 400 nm. Frequent sampling (GEO) enables monitoring diurnal variations
NO2 Total Column*	2 - very high	Cloud sensitive.. Daylight only.	UV and VIS spectrometry. Several NO2 lines. Frequent sampling (GEO) enables monitoring diurnal variations
O3*	2 - very high	Cloud sensitive.. Daylight only.	UV and VIS spectrometry. Ozone lines in the bands around 260 nm (Hartley) and/or 340 nm (Huggins) and 600 nm (Chappuis). GEO enabling frequent sampling (GEO) for diurnal variations
O3 Total Column*	2 - very high	Cloud sensitive.. Daylight only.	UV and VIS spectrometry. Ozone lines in the bands around 260 nm (Hartley) and/or 340 nm (Huggins) and 600 nm (Chappuis). GEO enabling frequent sampling (GEO) for diurnal variations
PSC occurrence	2 - very high	Marginal view from GEO.. Daylight only.	UV and VIS spectrometry
Short-wave cloud reflectance	5 - marginal	No specific limitation.	VIS and NIR spectrometry. Unsuitable dynamic range (saturation)
SO2*	2 - very high	Cloud sensitive.. Coarse vertical resolution.. Daylight only.	UV spectrometry. SO2 lines around 350 nm. Frequent sampling (GEO) for sources monitoring
SO2 Total Column*	3 - high	Cloud sensitive.. Daylight only.	UV spectrometry. SO2 lines around 350 nm. Frequent sampling (GEO) for sources monitoring
Upward short-wave irradiance at TOA	3 - high	Spectral interpolation needed.	UV, VIS and NIR spectrometry with changing solar incidence angles as daylight progresses
Upward spectral radiance at TOA	5 - marginal	Missing SWIR and all Long-waves.	UV, VIS and NIR spectrometry
Aerosol volcanic ash	2 - very high	Cloud sensitive.. Daylight only.	UV (specifically sensitive to ash), VIS and NIR spectrometry including the 760 nm band for high-level ash
Aerosol volcanic ash Total Column	2 - very high	Cloud sensitive.. Daylight only.	UV (specifically sensitive to ash), VIS and NIR spectrometry including the 760 nm band for high-level ash. Frequent sampling (GEO) for early detection of ash plumes