AKATSUKI Radio Science (RS) Data Archive

The science data obtained by Radio Science experiments (RS) using Ultra-Stable Oscillator (USO) onboard the AKATSUKI (also known as Venus Climate Orbiter and PLANET-C) spacecraft are provided on this page.

Instrument Overview

RS aims to determine the vertical structure of the Venusian atmosphere using radio occultation technique, which is achieved by using Ultra-Stable Oscillator (USO).

Data Download, metadata, citation information

Documents

Definition of Product Level

Level 1 (l1)
raw data: received signal from the spacecraft is multiplied by sinusoidal signal with similar frequency emitted from the spacecraft, obtained beat signal with low-frequency and record it with high sampling frequency.
Level 2 (l2)
received frequency and intensity of signal, and frequency variation caused by only Venusian atmosphere: received frequency and intensity of signal are obtained by using spectral analysis technique. These signals include both of contribution from orbital motion of the spacecraft and Venusian atmosphere. Frequency variation caused by only Venusian atmosphere will be obtained by subtracting contribution from orbital motion of the spacecraft.
Level 3 (l3)
vertical profile of refraction angle and vertical density profile of neutral atmosphere: orbital motion calculated from SPK, emission angle of radio waves, refraction angle, and impact parameter are calculated from Level 2 data. Using knowledge of composition of Venusian atmosphere, density profile of neutral atmosphere is also calculated.
Level 4 (l4)
vertical profile of atmospheric temperature, pressure, and mixing ratio of H2SO4 vapor: assuming hydrostatic balance, vertical profile of pressure is calculated from density profile, and also calculated atmospheric temperature profile using equation of state. From intensity of received signal, absorption rate of radio waves by CO2 and H2SO4 are calculated. Using knowledge of temperature dependence of absorption rate by CO2, verical profile of mixing ratio of H2SO4 is calculated.

File Naming Convention

Filename is in "RS_DATE_TIME_GS_LEVEL(_KIND)_VER.EXT" format.

DATE
date in UTC when image taken at in "YYYYMMDD" format, where YYYY is four-digit year (2010 -- 20??), MM is two-digit month (01 -- 12), and DD is two-digit day (01 -- 31): e.g., 20160313 for 2016-03-13.
TIME
time in UTC when image taken at in "hhmmss" format, where hh is two-digit hour (00 -- 23), mm is two-digit minutes (00 -- 59), and ss is two-digit seconds (00 -- 60): e.g., 003152 for 00:31:52.
GS
abbreviation of the ground station that receives the radio wave; udsc64, idsn32, whm30.
LEVEL
level of product: l1, l2, l3, l4.
KIND
kind of data type: rhcp and lhcp for right- and left- hand circularly polarized components, respectively, for l1 data; i and e for data taken during ingress and during egress, respectively, for l3 data; ai and ei for atmospheric temperature profile during ingress and during egress, respectively, for l4 data; pi and pe for H2SO4 vapor mixing ratio profile during ingress and egress, respectively, for l4 data; ii and ie for electron density profile during ingress and egress, respectively, for l4 data.
LEVEL
level of product: l1, l2, l3, l4.
VER
version string: v10 for "version 1.0".
EXT
extension that represents file type: tab for table-type format text file, pdf for PDF file, and lbl for PDS3 label file.

Data Processing tools

Related Papers

Please see list of publications of AKATSUKI

Contacts

For questions concerning this archive:

Shin-ya Murakami, Japan Aerospace Exploration Agency, murakami.shinya _AT_ jaxa.jp
Yukio Yamamoto, Japan Aerospace Exploration Agency, yamamoto.yukio _AT_ jaxa.jp

For questions concerning the data:

Takeshi Imamura, The University of Tokyo, t_imamura _AT_ edu.k.u-tokyo.ac.jp