O3 Photometer - UAS (NOAA)

Status

Status
Operational
Operated By
PI

Ozone (O3) in the lower stratosphere (LS) is responsible for absorbing much of the biologically damaging ultraviolet (UV) radiation from the sunlight, and thus plays a critical role in protecting Earth's environment. By absorbing UV light, O3 heats the surrounding air, leading to the vertical stratification and dynamic stability that define the stratosphere. Halogen species from anthropogenic compounds such as CFCs can cause significant damage to the O3 layer in the LS and have led to the formation of the Antarctic ozone hole. Accurate measurement of O3 in the LS is the first step toward understanding and protecting stratospheric O3. The UAS Ozone Photometer was designed specifically for autonomous, precise, and accurate O3 measurements in the upper troposphere and lower stratosphere (UT/LS) onboard the NASA Global Hawk Unmanned Aircraft System (GH UAS) and other high altitude research platforms such as the ER-2 and WB-57. With a data rate of 2 Hz, the instrument can provide high-time-resolution, detailed information for studies of O3 photochemistry, radiation balance, stratosphere-troposphere exchange, and air parcel mixing in the UT/LS. Furthermore, its accurate data are useful for satellite retrieval validation.  Contacts: Troy Thornberry, Ru-Shan Gao

Instrument Type
Measurements
Recent Missions
(WB-57 - JSC)
;
(Global Hawk - AFRC)
;
(WB-57 - JSC)
;
(WB-57 - JSC)
;
(Global Hawk - AFRC)
;
(ER-2 - AFRC)
Point(s) of Contact
(POC; PI),
(Prev PI),
(Prev PI)
Range of Measurement
In situ
Measurement Sampling Rate
2.00 Hz
Weight
18.00 kg
Size
Length
48.00 cm
(L) x
Width
34.00 cm
(W) x
Height
22.00 cm
(H)
Power:
50.00 W
(maximum
200.00 W
)
Has Pressurized Canisters? Yes
Location
WB-57 Pallet #3 (MACPEX);
WB-57 Pallet Bay Aft Transition (VIRGAS, POSIDON);
Global Hawk Zone 13 (GloPac, ATTREX, SHOUT-ENRR, HOPE-EPOCH);
ER-2 Super pod mid-body vertical rack (SEAC4RS)
Mission-Specific Writeups
TRL
9