DESTINY+ explained

DESTINY+

Names List:

Demonstration and Experiment of Space Technology for INterplanetary voYage with Phaethon fLyby and dUst Science

Mission Type:

Asteroid flyby

Operator:

ISAS / JAXA

Website:

http://destiny.isas.jaxa.jp/

Mission Duration:

≥4 years (planned)
cruise: ≈2 years

Manufacturer:

NEC Corporation

Launch Mass:

including 60 kg of xenon and 15.4 kg of hydrazine

Power:

4.7 kW from solar panels

Launch Date:

2025 (planned)^[1]

Launch Rocket:

Epsilon S

Launch Site:

Uchinoura Space Center

Launch Contractor:

JAXA

Orbit Reference:

Geocentric orbit

Orbit Regime:

Low Earth orbit

Orbit Inclination:

30.0°

Apsis:

gee

Interplanetary:

Type:	flyby
Arrival Date:	2029 (planned)

Trans Band:

X-band

Instruments:

DESTINY Dust Analyzer (DDA)
Telescopic Camera for Phaethon (TCAP)
Multiband Camera for Phaethon (MCAP)

Insignia Size:

200px

Programme:

Medium-class Science Program

Previous Mission:

SLIM

DESTINY⁺ (Demonstration and Experiment of Space Technology for INterplanetary voYage with Phaethon fLyby and dUst Science) is a planned mission to flyby the Geminids meteor shower parent body 3200 Phaethon, and sample dust originating from the "rock comet".^[2] The spacecraft is being developed by the Japanese space agency JAXA, and will demonstrate advanced technologies for future deep space exploration. As of 2023, DESTINY⁺ is planned to be launched in 2025.

Overview

DESTINY⁺ will be launched from Uchinoura Space Center by an Epsilon S launch vehicle into low Earth orbit, and will spend 1.5 years raising its orbit with ion engines.^[3] A lunar flyby (at ~) will accelerate the probe into an interplanetary orbit. During this cruise time it will fly by a few near Earth objects for study, including the transition body 3200 Phaethon in 2029, as well as measure interplanetary and interstellar dust.^[4] ^[5]

The probe's ion engines have the capability to perform another orbit transfer to study additional objects.^[6]

Objectives

DESTINY⁺ will be a technology demonstrator to further improve operations of low cost solar electric propulsion in deep space. It will also demonstrate innovative light-weight solar array panel technology. The scientific aspect of this mission is to understand origin and nature of dusts, which are key sources of organic compounds to Earth. It will also observe dusts from comet/asteroid 3200 Phaethon using a dust analyzer and will map its surface using a multiband telescopic camera to understand the mechanisms of dust ejection.^[3] The spacecraft will come as close as from 3200 Phaethon.^[3]

Spacecraft

DESTINY⁺ will use ultra light-weight solar panels and heat-actuated folding radiators, along with compact avionics. The spacecraft is designed to tolerate a radiation dose up to approximately 30 krad by using a 3 mm aluminum shield.^[3]

Propulsion

The spacecraft will be propelled by four μ10 solar electric ion engines,^[3] as used by Hayabusa and Hayabusa2, but while its predecessors operated only up to three engines simultaneously, DESTINY⁺ will use all four simultaneously ^[7] for a total thrust of 40 mN (specific impulse: 3000 seconds; acceleration: 83 μm/s²; power: 1670 watts.^[3]) The total dry mass (excludes xenon propellant) of the ion engine system is .^[3]

Payload

DESTINY⁺ will carry three scientific instruments:^[4]

DESTINY Dust Analyzer (DDA) — The DESTINY Dust Analyzer (2.7 kg) will be provided by the German Aerospace Center (DLR),^[8] and is being developed by the University of Stuttgart.^[3] ^[9]
Telescopic Camera for Phaethon (TCAP) — The telescopic camera has a mass of 15.8 kg.^[3]
Multiband Camera for Phaethon (MCAP) — The multiband camera has a mass of 3.5 kg and will detect light in 390 nm, 550 nm, 700 nm, 850 nm wavelengths.^[3]

External links

Official project site

Notes and References

Web site: Jones . Andrew . Japan's mission to bizarre asteroid Phaethon delayed to 2025 . . 6 November 2023 . 18 December 2023.
Book: Ryabova . Galina O. . Meteoroids: Sources of Meteors on Earth and Beyond . Asher . David J. . Campbell-Brown . Margaret D. . 2019-10-10 . Cambridge University Press . 978-1-108-42671-8 . en.
Web site: DESTINY+: Deep Space Exploration Technology Demonstrator and Explorer to Asteroid 3200 Phaethon. Toyota. Hiroyuki. Nishiyama. Kazutaka. Kawakatsu. Yasuhiro. Low-Cost Planetary Missions Conference. 15 August 2017. 2017-09-21. https://web.archive.org/web/20170914034331/http://www.lcpm12.org/wp-content/uploads/2017/08/1415-1435-Toyota.pdf. 14 September 2017. dead.
https://www.jstage.jst.go.jp/article/tastj/14/ists30/14_Pk_111/_article/-char/ja/ Studies on Solar System Explorations using DESTINY: the Demonstration and Experiment of Space Technology for Interplanetary Voyage
Sommer. M.. Krüger. H.. Srama. R.. Hirai. T.. Kobayashi . M.. Arai. T.. Sasaki. S.. Kimura. H.. Moragas-Klostermeyer. G.. Strub. P.. Lohse. A.-K. . Destiny+ Dust Analyzer – Campaign and timeline preparation for interplanetary and interstellar dust observation during the 4-year transfer phase from Earth to Phaethon. Europlanet Science Congress 2020. Copernicus Publications. 21 September 2020. 27 September 2020.
http://www.isas.jaxa.jp/j/researchers/symp/sss13/paper/P2-132.pdf DESTINY Mission Overview
Web site: DESTINY＋: Technology Demonstration and Exploration of Asteroid 3200 Phaethon. Institute of Space and Astronautical Science (ISAS) / JAXA. 20 September 2017. 2017-09-22.
September 10, 2017. DLR-JAXA Joint Statement concerning the bilateral cooperation. JAXA. September 21, 2017.
Web site: 12 November 2020 . DESTINY+ – Germany and Japan begin new asteroid mission . 15 November 2020 . German Aerospace Center (DLR).