List of H-II series and H3 launches

(Redirected from H-II (rocket family))

This is a list of launches made by JAXA using H-II, H-IIA, H-IIB and H3 rockets.

Launch statistics

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Rocket configurations

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  •   H-II
  •   H-IIA
  •   H-IIB
  •   H3

Launch sites

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1
2
3
4
5
6
1994
1998
2002
2006
2010
2014
2018
2022
  •   Yoshinobu Launch Complex 1
  •   Yoshinobu Launch Complex 2

Launch outcomes

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1
2
3
4
5
6
1994
1998
2002
2006
2010
2014
2018
2022
2026
  •   Success
  •   Partial failure
  •   Failure
  •   Planned

Launch history

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1994-1999

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
TF1
(Test Flight 1)
3 February 1994
22:20
H-II Tanegashima, LA-Y1 OREX (Orbital Re-entry Experiment) / VEP (Vehicle Evaluation Payload) LEO / GTO Success
Ryūsei and Myōjō
TF2
(Test Flight 2)
28 August 1994
07:50
H-II Tanegashima, LA-Y1 ETS-VI (Engineering Test Satellite-VI) GEO Success
Kiku 6
TF3
(Test Flight 3)
18 March 1995
08:01
H-II Tanegashima, LA-Y1 Geostationary Meteorological Satellite-5 (GMS-5) / Space Flyer Unit (SFU) GEO / LEO Success
Himawari 5
F4 17 August 1996
01:53
H-II Tanegashima, LA-Y1 ADEOS I (Advanced Earth Observing Satellite) / Fuji-OSCAR 29, JAS-2 LEO Success
Midori and Fuji 3
F6 27 November 1997
21:27
H-II Tanegashima, LA-Y1 TRMM (Tropical Rainfall Measuring Mission) / ETS-VII (Engineering Test Satellite-VII) LEO Success
Orihime and Kiku 7 (Hikoboshi)
F5 21 February 1998
07:55
H-II Tanegashima, LA-Y1 COMETS (Communications and Broadcasting Engineering Test Satellites) GEO Partial failure
Kakehashi, Faulty brazing in second-stage engine cooling system caused engine burn through and cable damage resulting in shutdown midway through the upper stage's second burn, leaving spacecraft in elliptical LEO instead of GTO. Spacecraft thrusters raised orbit enough to complete some communications experiments.
F8 15 November 1999
07:29
H-II Tanegashima, LA-Y1 MTSAT (Multi-functional Transport Satellite) GEO Failure
Cavitation in the first stage hydrogen turbopump impeller caused an impeller blade to fracture, resulting in loss of fuel and rapid shutdown of the engine at T+239 seconds. The vehicle impacted the ocean 380 km at the northwest of Chichijima.

2001

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
TF1
(Test Flight 1)
29 August 2001
07:00:00
H-IIA 202 Tanegashima, LA-Y1 VEP 2 (Vehicle Evaluation Payload 2) / LRE Success

2002

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
TF2
(Test Flight 2)
4 February 2002
02:45:00
H-IIA 2024 Tanegashima, LA-Y1 VEP 3 (Vehicle Evaluation Payload 3) / Mission Demonstration Satellite 1 (MDS-1) (Tsubasa) / DASH Success
F3 10 September 2002
08:20:00
H-IIA 2024 Tanegashima, LA-Y1 USERS / DRTS (Kodama) Success
F4 14 December 2002
01:31:00
H-IIA 202 Tanegashima, LA-Y1 ADEOS II (Midori 2) / WEOS (Kanta-kun) / FedSat 1 / Micro LabSat 1 Success

2003

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F5 28 March 2003
01:27:00
H-IIA 2024 Tanegashima, LA-Y1 IGS-Optical 1 / IGS-Radar 1 Success
F6 29 November 2003
04:33:00
H-IIA 2024 Tanegashima, LA-Y1 IGS-Optical (2nd) / IGS-Radar (2nd) Failure
A hot gas leak from one SRB-A motor destroyed its separation system. The strap-on did not separate as planned, and the weight of the spent motor prevented the vehicle from achieving its planned height.[1]

2005

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F7 26 February 2005
09:25:00
H-IIA 2022 Tanegashima, LA-Y1 MTSAT-1R (Himawari 6) Success

2006

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F8 24 January 2006
01:33:00
H-IIA 2022 Tanegashima, LA-Y1 ALOS (Daichi) Success
F9 18 February 2006
06:27:00
H-IIA 2024 Tanegashima, LA-Y1 MTSAT-2 (Himawari 7) Success
F10 11 September 2006
04:35:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 2 Success
F11 18 December 2006
06:32:00
H-IIA 204 Tanegashima, LA-Y1 ETS-VIII (Kiku 8) [2] GTO Success

2007

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F12 24 February 2007
04:41:00
H-IIA 2024 Tanegashima, LA-Y1 IGS-Radar 2 / IGS-Optical 3V Success
F13 14 September 2007
01:31:01
H-IIA 2022 Tanegashima, LA-Y1 SELENE (Kaguya) Success

2008

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F14 23 February 2008
08:55:00
H-IIA 2024 Tanegashima, LA-Y1 WINDS (Kizuna) Success

2009

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F15 23 January 2009
03:54:00
H-IIA 202 Tanegashima, LA-Y1 GOSAT (Ibuki) / SDS-1 / STARS (Space Tethered Autonomous Robotic Satellite) (Kūkai) / KKS-1 (Kiseki) / PRISM (Hitomi) / Sohla-1 (Maido 1) / SORUNSAT-1 (Kagayaki) / SPRITE-SAT (Raijin) Success [3]
F1 10 September 2009
17:01:46
H-IIB Tanegashima, LA-Y2 HTV-1 Success
First flight of H-IIB
F16 28 November 2009
01:21:00 [4]
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 3 Success

2010

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F17 20 May 2010
21:58:22 [5][6][7]
H-IIA 202 [8] LA-Y1, Tanegashima PLANET-C (Akatsuki) / IKAROS / UNITEC-1 (Shin'en) / Waseda-SAT2 / K-Sat (Hayato) / Negai☆″ Success
F18 11 September 2010
11:17:00 [9]
H-IIA 202 Tanegashima, LA-Y1 QZS-1 (Michibiki) Success

2011

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F2 22 January 2011
05:37:57
H-IIB Tanegashima, LA-Y2 Kounotori 2 (HTV-2) Success
F19 23 September 2011
04:36:50 [10]
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 4 Success
F20 12 December 2011
01:21:00 [11]
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 3 Success

2012

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F21 17 May 2012
16:39:00
H-IIA 202 [12] Tanegashima, LA-Y1 GCOM-W1 (Shizuku) / KOMPSAT-3 (Arirang 3) / SDS-4 / HORYU-2 Success
F3 21 July 2012
02:06:18
H-IIB Tanegashima, LA-Y2 Kounotori 3 (HTV-3) / Raiko / We Wish / Niwaka / TechEdSat / F-1 Success
CubeSats carried aboard Kounotori 3, deployed on 4 October 2012 from the ISS.

2013

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F22 27 January 2013
04:40:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 4 / IGS-Optical 5V Success
F4 3 August 2013
19:48:46
H-IIB Tanegashima, LA-Y2 Kounotori 4 (HTV-4) / PicoDragon / ArduSat-1 / ArduSat-X / TechEdSat-3 Success
CubeSats carried aboard Kounotori 4 for deployment from the ISS.

2014

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F23 27 February 2014
18:37:00
H-IIA 202 Tanegashima, LA-Y1 GPM-Core / SindaiSat (Ginrei) / STARS-II (Gennai) / TeikyoSat-3 / ITF-1 (Yui) / OPUSAT (CosMoz) / INVADER / KSAT2 Success
F24 24 May 2014
03:05:14
H-IIA 202 Tanegashima, LA-Y1 ALOS-2 (Daichi 2) / Raijin-2 (Rising-2) / UNIFORM-1 / SOCRATES / SPROUT Success
F25 7 October 2014
05:16:00
H-IIA 202 Tanegashima, LA-Y1 Himawari 8 Success
F26 3 December 2014
04:22:04
H-IIA 202 Tanegashima, LA-Y1 Hayabusa 2 / Shin'en 2 / ARTSAT2-DESPATCH / PROCYON Success

2015

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F27 1 February 2015
01:21:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar Spare Success
F28 26 March 2015
01:21:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 5 Success
F5 19 August 2015
11:50:49
H-IIB Tanegashima, LA-Y2 Kounotori 5 (HTV-5) / SERPENS / S-CUBE / Flock-2b x 14 / GOMX-3 / AAUSAT5 Success
CubeSats carried aboard Kounotori 5 for deployment from the ISS.
F29 24 November 2015
06:50:00
H-IIA 204 Tanegashima, LA-Y1 Telstar 12 Vantage[2] GTO Success

2016

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F30 17 February 2016
08:45:00
H-IIA 202 Tanegashima, LA-Y1 ASTRO-H (Hitomi) / ChubuSat-2 (Kinshachi 2) / ChubuSat-3 (Kinshachi 3) / Horyu-4 Success
The Hitomi telescope broke apart 37 days after launch.[13]
F31 2 November 2016
06:20:00
H-IIA 202 Tanegashima, LA-Y1 Himawari 9 Success
F6 9 December 2016
13:26:47
H-IIB Tanegashima, LA-Y2 Kounotori 6 (HTV-6) / AOBA-Velox III / TuPOD / EGG / ITF-2 / STARS-C / FREEDOM / WASEDA-SAT3 Success
CubeSats carried aboard Kounotori 6 for deployment from the ISS.

2017

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F32 24 January 2017
07:44:00
H-IIA 204 Tanegashima, LA-Y1 DSN-2 (Kirameki 2) [2] GTO Success
F33 17 March 2017
01:20:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 5 Success
F34 1 June 2017
00:17:46
H-IIA 202 Tanegashima, LA-Y1 QZS-2 (Michibiki 2) Success
F35 19 August 2017
05:29:00
H-IIA 204 Tanegashima, LA-Y1 QZS-3 (Michibiki 3) [2] GTO Success
F36 9 October 2017
22:01:37
H-IIA 202 Tanegashima, LA-Y1 QZS-4 (Michibiki 4) Success
F37 23 December 2017
01:26:22
H-IIA 202 Tanegashima, LA-Y1 GCOM-C (Shikisai) / SLATS (Tsubame) Success

2018

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F38 27 February 2018
04:34:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 6 Success
F39 12 June 2018
04:20:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 6 Success
F7 22 September 2018
17:52:27
H-IIB Tanegashima, LA-Y2 Kounotori 7 (HTV-7) / SPATIUM-I / RSP-00 / STARS-Me Success
CubeSats carried aboard Kounotori 7 for deployment from the ISS.
F40 29 October 2018
04:08:00
H-IIA 202 Tanegashima, LA-Y1 GOSAT-2 (Ibuki-2) / KhalifaSat / Ten-Koh / Diwata-2B / Stars-AO (Aoi) / AUTcube2 (GamaCube) Success

2019

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F8 24 September 2019
16:05:05
H-IIB Tanegashima, LA-Y2 Kounotori 8 (HTV-8) / NARSSCube-1 / AQT-D / RWASAT-1 Success
CubeSats carried aboard of Kounotori 8 for deployment from the ISS.

2020

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F41 9 February 2020
01:34:00
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 7 Success
F9 20 May 2020
17:31:00
H-IIB Tanegashima, LA-Y2 Kounotori 9 (HTV-9) Success
Kounotori 9 launch to the ISS. The last launch of both the launch vehicle and vehicle, awaiting new fleet of HTV-X and H3.
F42 19 July 2020
21:58:14
H-IIA 202 Tanegashima, LA-Y1 Emirates Mars Mission 1350 kg Heliocentric Mohammed bin Rashid Space Centre Success
Emirates Mars Mission launched to planet Mars.
F43 29 November 2020
07:25:00
H-IIA 202 Tanegashima, LA-Y1 JDRS/LUCAS GTO Success

2021

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F44 26 October 2021
02:19:37
H-IIA 202 Tanegashima, LA-Y1 QZS-1R about 4t IGSO Cabinet Office Success
Replacement for QZS-1 (Michibiki-1).
F45 22 December 2021
15:32:00
H-IIA 204 Tanegashima, LA-Y1 Inmarsat-6 F1 5,470 kg GTO (supersynchronous) Inmarsat Success
Final flight of H-IIA 204.

2023

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F46 26 January 2023
01:50:21
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 7 SSO CIRO Success
TF1 (Test Flight 1) 7 March 2023 01:37:55 H3-22S Tanegashima, LA-Y2 ALOS-3 3,000 kg SSO JAXA Failure
First H3 flight. Second stage ignition failed, leading to flight termination.
F47 6 September 2023
23:42:11
H-IIA 202 Tanegashima, LA-Y1 XRISM / SLIM 3,015 kg LEO / Selenocentric JAXA / NASA Success

2024

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Flight No. Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Payload mass Orbit Users Launch
outcome
F48 12 January 2024
04:44:26
H-IIA 202 Tanegashima, LA-Y1 IGS-Optical 8 SSO CIRO Success
TF2 (Test Flight 2) 17 February 2024 00:22:55 H3-22S Tanegashima, LA-Y2 VEP-4 (Mass simulator), CE-SAT-1E, TIRSAT 2,675 kg SSO JAXA Success
Second H3 test flight and first launch success.
F3 1 July 2024
03:06
H3-22S Tanegashima, LA-Y2 ALOS-4 2,990 kg SSO JAXA Success
F49 26 September 2024
05:24:20
H-IIA 202 Tanegashima, LA-Y1 IGS-Radar 8 SSO CIRO Success
F4 4 November 2024
06:48[14]
H3-22S Tanegashima, LA-Y2 DSN-3 GTO DSN / JDSF Success

Planned launches

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Date / time (UTC) Rocket,
Configuration
Launch site / Pad Payload Orbit Customer
1 February 2025[14] H3-22S Tanegashima, LA-Y2 QZS-6 Tundra JAXA
2025[14] H3 Tanegashima, LA-Y2 QZS-5 Tundra JAXA
2025[14] H-IIA 202 Tanegashima, LA-Y1 GOSAT-GW SSO JAXA
Final flight of H-IIA 202, and H-II family as a whole.
2025[14] H3-24L Tanegashima, LA-Y2 HTV-X1 LEO (ISS) JAXA
First HTV-X resupply mission.
2025[14][15] H3 Tanegashima, LA-Y2 QZS-7 Tundra JAXA
2025[14][16] H3 Tanegashima, LA-Y2 ETS-9 (Kiku-9) GEO JAXA / NICT
2026[14] H3-24L Tanegashima, LA-Y2 HTV-X2 LEO (ISS) JAXA
2026[14] H3-24L Tanegashima, LA-Y2 HTV-X3 LEO (ISS) JAXA
2026[17] H3-24L Tanegashima, LA-Y2 MMX Areocentric JAXA
2026[14] H3 Tanegashima, LA-Y2 IGS-Optical Diversification 1 SSO CIRO
First of a new generation of IGS-Optical satellites.
2027[14] H3 Tanegashima, LA-Y2 IGS-Optical 9 SSO CIRO
2027[14] H3 Tanegashima, LA-Y2 IGS-Optical Diversification 2 SSO CIRO
2027 H3 Tanegashima, LA-Y2 JDRS-2 GEO CIRO / JAXA
2028[14][18] H3 Tanegashima, LA-Y2 Himawari 10 GEO JMA
2029[14] H3 Tanegashima, LA-Y2 IGS-Radar Diversification 1 SSO CIRO
First of a new generation of IGS-Radar satellites.
2029[14] H3 Tanegashima, LA-Y2 IGS-Optical 10 SSO CIRO
2030[14] H3 Tanegashima, LA-Y2 IGS-Radar Diversification 2 SSO CIRO
2031[14] H3 Tanegashima, LA-Y2 IGS-Radar 9 SSO CIRO
2032[14] H3 Tanegashima, LA-Y2 IGS-Optical Diversification Successor SSO CIRO
2032[19][20] H3 Tanegashima, LA-Y2 LiteBIRD Sun–Earth L2 JAXA
2033[14] H3 Tanegashima, LA-Y2 IGS-Radar 10 SSO CIRO
2033[14] H3 Tanegashima, LA-Y2 IGS-Optical 11 SSO CIRO
TBD H3 Tanegashima, LA-Y2 Inmarsat TBA GEO Inmarsat
First commercial customer to launch on H3.[21]

Sources: Gunter's Space Page[22][23] and Cabinet Office of Japan[14]

References

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  1. ^ "Launch Result of IGS #2/H-IIA F6". JAXA. 29 November 2003. Archived from the original on 25 September 2011. Retrieved 19 June 2013.
  2. ^ a b c d Space Launch Report: H-IIA/B Data Sheet, Retrieved 20 February 2019
  3. ^ "Launch Result of the IBUKI (GOSAT) by H-IIA Launch Vehicle No. 15". MHI and JAXA. 23 January 2009. Archived from the original on 21 June 2013. Retrieved 13 March 2018.
  4. ^ "H-IIA F16". Sorae. Archived from the original on 18 February 2012.
  5. ^ "Launch Day of the H-IIA Launch Vehicle No. 17". JAXA. 3 March 2010. Archived from the original on 3 June 2013. Retrieved 13 March 2018.
  6. ^ "Overview of Secondary Payloads". JAXA.
  7. ^ Malik, Tariq (18 May 2010). "New Venus Probe to Launch Thursday From Japan After". Space.com. Retrieved 20 May 2010.
  8. ^ Bergin, Chris (17 May 2010). "JAXA launch H-IIA carrying AKATSUKI and IKAROS scrubbed". NASASpaceflight. Retrieved 17 May 2010.
  9. ^ "New Launch Day of the First Quasi-Zenith Satellite 'MICHIBIKI' by H-IIA Launch Vehicle No. 18". JAXA.
  10. ^ Bergin, Chris (23 September 2011). "Japanese H-2A launches with new IGS military satellite". NASASpaceflight.
  11. ^ Bergin, Chris (11 December 2011). "Japanese H-2A lofts IGS (Radar-3) satellite into orbit". NASASpaceflight.
  12. ^ "Launch Overview – H-IIA Launch Services Flight No.21". Mitsubishi Heavy Industries. Archived from the original on 15 October 2017. Retrieved 15 April 2012.
  13. ^ Clark, Stephen (18 April 2016). "Attitude control failures led to break-up of Japanese astronomy satellite". Spaceflight Now. Retrieved 21 April 2016.
  14. ^ a b c d e f g h i j k l m n o p q r s t u "宇宙基本計画⼯程表 (令和5年度改訂)" [Basic Plan on Space Policy (2023 Revision)] (PDF) (in Japanese). Cabinet Office. 22 December 2023. p. 45. Archived (PDF) from the original on 25 December 2023. Retrieved 26 December 2023.
  15. ^ Ryan, Dorothy (3 December 2020). "Lincoln Laboratory is designing a payload to integrate on Japanese satellites". MIT. Retrieved 29 April 2021. The laboratory is working with the Japanese National Space Policy Secretariat and Mitsubishi Electric Company to integrate state-of-the-art sensors on the newest satellites in the QZSS constellation, QZS-6 and QZS-7, which are scheduled for launch in 2023 and 2024, respectively.
  16. ^ "技術試験衛星9号機(ETS-9)の開発状況について" [About the development status of Engineering Test Satellite No. 9 (ETS-9)] (PDF). MEXT (in Japanese). 28 June 2021. Retrieved 7 September 2021.
  17. ^ "Japan to Delay Mars Moon Exploration by 2 Years to 2026". Yomiuri Shimbun. 6 December 2023. Retrieved 26 December 2023.
  18. ^ Bessho, K. (26 April 2023). Status of Himawari-8/9 and their follow-on satellite Himawari-10. CGMS-51. JMA. p. 5. Retrieved 7 December 2023.
  19. ^ "The origin of the Universe will be unveiled by the LiteBIRD cryogenic satellite". Grenoble Alpes University. 3 July 2023. Retrieved 26 December 2023.
  20. ^ Montier, L. (10 July 2019). "LiteBIRD Overview" (PDF). IN2P3. Retrieved 29 April 2021.
  21. ^ Jones, Andrew (27 November 2020). "Japan's new H3 launcher delayed by rocket engine component issues". SpaceNews. Retrieved 29 April 2021.
  22. ^ Krebs, Gunter (17 March 2021). "H-2A". Gunter's Space Page. Retrieved 29 April 2021.
  23. ^ Krebs, Gunter (5 October 2020). "H-3". Gunter's Space Page. Retrieved 29 April 2021.
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USERS 24