CALIPSO PAYLOAD
The CALIPSO payload consists of three co-aligned nadir-viewing instruments:
These instruments are designed to operate autonomously and continuously, although the WFC acquires data only
under daylight conditions. Science Data are downlinked using an X-band transmitter system which is part of the payload.
For more information on CALIPSO's payload, visit these journal articles:
Winker, D. M., W. H. Hunt, and M. J. McGill, 2007: Initial performance assessment of CALIOP, Geophys. Res. Lett., 34, L19803,
doi:10.1029/2007GL030135.
[View Paper (PDF)]
Winker, D. M., W. H. Hunt, and C. A. Hostetler, 2004: Status and Performance of the CALIOP Lidar, Proc. SPIE vol 5575, 8-15.
[View Paper (PDF)]
The physical layout of the payload is shown below, with key instrument characteristics listed in the following table.
CALIOP is a two-wavelength polarization-sensitive lidar that provides high-resolution vertical profiles of aerosols and clouds. Examples of this
measurement capability can be found at the LITE and
ICESAT home pages.
CALIOP utilizes three receiver channels: one measuring the 1064 nm backscatter intensity and two channels measuring orthogonally polarized components
of the 532 nm backscattered signal. Dual 14-bit digitizers on each channel provide an effective 22-bit dynamic range. The receiver telescope is 1 meter
in diameter. A redundant laser transmitter is included in the payload.
An active boresight system is employed to maintain co-alignment between the transmitter and the receiver.
Ball Aerospace Corporation, developed the instrument.
| CALIOP |
| laser: |
Nd: YAG, diode-pumped, Q-switched, frequency doubled |
| wavelengths: |
532 nm, 1064 nm |
| pulse energy: |
110 mJoule/channel |
| repetition rate: |
20.25 Hz |
| receiver telescope: |
1.0 m diameter |
| polarization: |
532 nm |
| footprint/FOV: |
100 m/ 130 µrad |
| vertical resolution: |
30-60 m |
| horizontal resolution: |
333 m |
| linear dynamic range: |
22 bits |
| data rate: |
316 kbps |
|
|
The WFC is a modified version of the commercial off-the-shelf Ball Aerosopace CT-633 star tracker camera. It is a fixed, nadir-viewing imager with a single spectral channel covering the 620-670 nm region, selected to match band 1 of the MODIS (MODerate resolution Imaging Spectroradiometer) instrument on Aqua.
| WFC |
| wavelength: |
645 nm |
| spectral bandwidth: |
50 nm |
| IFOV/swath: |
125 m/61 km |
| data rate: |
26 kbps |
|
|
A three-channel IIR is provided by CNES with algorithm development performed by the Institute Pierre Simon Laplace (IPSL) in Paris.
The IIR a nadir-viewing, non-scanning imager having a 64 km by 64 km swath with a pixel size of 1 km. The CALIOP beam is nominally aligned with the center of the IIR image.
The instrument uses a single microbolometer detecter array, with a rotating filter wheel providing measurements at three channels in the thermal infrared window region at 8.7 mm, 10.5 mm, and 12.0 mm. These wavelengths were selected to optimize joint CALIOP/IIR retrievals of cirrus cloud emissivity and particle size.
| IIR |
| wavelengths: |
8.65 µm, 10.6 µm, 12.0 µm |
| spectral resolution: |
0.6 µm - 1.0 µm |
| IFOV/swath: |
1 km/64 km |
| NETD at 210K: |
0.3K |
| calibration: |
+/- 1K |
| data rate: |
44 kbps |
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