Japan launches new relay laser satellite with H-IIA Rocket

On Sunday, Japan successfully launched a new relay satellite with laser communication technology firing into orbit thanks to an H-IIA rocket

Mitsubishi Heavy Industries Ltd. launched Sunday in Kagoshima Prefecture at JAXA’s Tanegashima Space Center at 4:25 pm local time (2:25 AM EST), local newspaper reports Nippon.com.

The company published on Twitter once the successful launch was completed, also stating that the satellite had separated from the upper stage rocket (in Japanese).

The satellite is just starting its 10-year mission, he says Space.com.

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The data transmission satellite will transmit high-speed data and images of the Earth to a base station and was developed by JAXA, to NHK World-Japan.

No exact information about the satellite’s orbital flight has been offered by JAXA, possibly due to the sensitive nature of the data, he speculates Space flight now.

The separation of the satellite has been confirmed. We would like to conclude today’s H-IIA F43 launch report. Thanks a lot. # H2AF43

– MHI Launch Services (@MHI_LS) November 29, 2020

However, how JAXA explains (in Japanese) what is known is that the satellite, known as the laser using the communication system or LUCAS, and its mission is that LUCAS will be placed in geostationary orbit and will use optical laser-based high-speed communication technologies to receive information from the Earth observation satellite and then transfer that information to the JAXA base station.

The satellite will remain above Japan.

【Ad】#Mitsubishi Heavy Industries IS #Taneshima Space Center H-IIA equipped with data relay satellite n. 1 and optical relay satellite data from #rocket The launch of Unit 43 (H-IIA / F43) was carried out as scheduled. 👇 https://t.co/XcMQXP2lvd# H2AF43 #space pic.twitter.com/YQJRIVMlwU

– Mitsubishi Heavy Industries Ltd.[Ufficiale](@MHI_GroupJP) November 29, 2020

The hope is that such a satellite “increased data transmission capacity and immediacy requirements, “such as JAXA States.

This type of fast-transmitting information is critical for global warming monitoring cases, as well as for relief and response to natural disasters such as hurricanes.