Exploration of dwarf planets

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Artist's impression of 50000 Quaoar and its moon Weywot, potential targets for a flyby mission by the Chinese probe Shensuo. Artist impression of Quaoar and its ring ESA24681885.jpeg
Artist's impression of 50000 Quaoar and its moon Weywot, potential targets for a flyby mission by the Chinese probe Shensuo.

The exploration of dwarf planets involves studying these celestial bodies within the Solar System. Since Pluto's reclassification as a dwarf planet in 2006 by the International Astronomical Union (IAU), space exploration has increasingly focused on these celestial bodies.

Contents

In 2015 significant milestones in dwarf planet exploration were reached with the flybys of Pluto and Ceres by the New Horizons and Dawn spacecraft. [1] [2]

Technical requirements

Exploring dwarf planets demands significant fuel resources, which vary depending on the targeted celestial bodies. [3] However, various methods have been developed to conserve fuel in probes traveling long distances.

Interstellar probes, such as New Horizons, use high-gain antennas to ensure communication with Earth over vast distances. New Horizons - REX.jpeg
Interstellar probes, such as New Horizons, use high-gain antennas to ensure communication with Earth over vast distances.

Missions to dwarf planets in the outer Solar System necessitate careful planning and execution, with spacecraft hibernation employed specifically to conserve energy for the prolonged interplanetary journeys. This allows the spacecraft to endure the extended travel time while maintaining essential functions for navigation and communication. [4] [5]

Successful missions to distant dwarf planets also require substantial fuel reserves on board. These reserves are crucial for trajectory adjustments, course corrections, and orbital insertions upon arrival at the target dwarf planet. The spacecraft's propulsion systems must deliver the necessary thrust over long distances to counter the gravitational influences of celestial bodies encountered during the journey.

Gravity assists are critical for optimizing spacecraft trajectories and accelerating them toward their target dwarf planets. During a gravity assist, the spacecraft uses the gravitational pull of celestial bodies, such as planets or moons, to gain momentum and alter its trajectory without expending extra fuel. Careful planning of these maneuvers can significantly reduce travel time and fuel requirements for reaching distant dwarf planets. [6]

High-gain antennas are pivotal in space exploration, especially in missions to distant celestial bodies like dwarf planets. Unlike conventional antennas, high-gain antennas concentrate their radiation pattern into a narrow beam, enhancing signal strength and data transmission rates. This feature is vital for maintaining uninterrupted contact with spacecraft operating in the remote reaches of the Solar System, where radio signals undergo significant attenuation. By leveraging high-gain antennas, mission controllers can receive crucial scientific data and telemetry from spacecraft exploring dwarf planets, enabling real-time monitoring and operational control. Furthermore, these antennas facilitate the exchange of commands and instructions, empowering spacecraft to execute intricate maneuvers and scientific observations autonomously. [7]

Flyby missions

2010s

Dawn program (2015)

Image captured by the Dawn spacecraft, revealing the rugged terrain of Ceres, including one of its prominent features, Ahuna Mons. PIA22769-CeresDwarfPlanet-AhunaMons-LastLooks-20181101.jpg
Image captured by the Dawn spacecraft, revealing the rugged terrain of Ceres, including one of its prominent features, Ahuna Mons.

In September 2007, the Dawn spacecraft launched on a mission from Cape Canaveral Space Launch Complex 17 [8] on a mission to explore two of the three largest bodies in the asteroid belt, 4 Vesta and 1 Ceres. After nearly four years, Dawn entered orbit around Vesta on July 16, 2011. Subsequently, on September 5, 2012, it concluded its Vesta mission and commenced its journey to Ceres. [2]

On December 1, 2014, Dawn captured images revealing an extended disc around Ceres. In January 2015, it compiled a series of images of Ceres into a stop-motion animation, depicting its rotation in low resolution. Following January 26, 2015, Dawn obtained higher-quality images than those captured by ground telescopes. [9] It entered orbit around Ceres on March 6, 2015. [2]

On October 31, 2018, Dawn exhausted its fuel reserves and lost communication with Earth. The spacecraft will remain in orbit around Ceres until at least 2038. [2]

New Horizons program (2015)

Image of Pluto taken from the New Horizons probe from a distance of 35,445 kilometers (22,025 miles), showcasing its intricate nitrogen geology. Pluto in True Color - High-Res.jpg
Image of Pluto taken from the New Horizons probe from a distance of 35,445 kilometers (22,025 miles), showcasing its intricate nitrogen geology.

In 2006, the New Horizons probe launched on its mission to explore the Plutonian system.

In 2007, New Horizons performed a gravity assist using Jupiter. This maneuver increased the probe's velocity by 4 km/s (14,000 km/h; 9,000 mph), cutting its travel time to Pluto by three years. [3]

On February 4, 2015, New Horizons entered the Plutonian system, capturing images of Pluto and its moon Charon from about 203,000,000 km (126,000,000 mi) away. From April to June 2015, New Horizons delivered higher-quality images than those from ground telescopes. [10] [11]

On July 14, 2015, the New Horizons probe took close-up photos of Pluto from 18,000 kilometers away. The data collected was transmitted to Earth and received on September 13, 2015. [12] [13]

Proposed probes

2040s

IHP-1 (2040)

IHP-1 is a proposed spacecraft in the Shensuo program (Chinese :神梭), designed to fly by Jupiter, the dwarf planet 50000 Quaoar, and its moon Weywot, before heading into interstellar space. [14]

IHP-1 is set to launch with IHP-2 and the proposed IHP-3. [15] IHP-1 will use gravity assists from Earth in October 2025 and December 2027. It will then fly by Jupiter in March 2029, traveling towards the heliosphere. On its way to interstellar space, it will encounter 50000 Quaoar and its moon Weywot in 2040. [15]

Proposed probes list

Human exploration

Artist's depiction of Pluto's rugged surface, highlighting its diverse terrain and featuring its largest moon, Charon. Pluto (artist's impression).tif
Artist's depiction of Pluto's rugged surface, highlighting its diverse terrain and featuring its largest moon, Charon.

The concept of human exploration of dwarf planets has intrigued scientists since Pluto's discovery in 1930. Despite the vast distances and significant challenges, advancements in space technology could make such endeavors possible. Colonizing dwarf planets offers potential economic benefits due to the presence of rare and valuable ores. [23]

Mining operations on dwarf planets present significant economic opportunities. These bodies may harbor rare elements and minerals, including hydrocarbons and precious metals like platinum.[ citation needed ]

Notes

  1. 1 2 Proposed family of spacecraft, designed for multiple independent launches rather than a single mission.

Related Research Articles

<span class="mw-page-title-main">Interplanetary spaceflight</span> Crewed or uncrewed travel between stars or planets

Interplanetary spaceflight or interplanetary travel is the crewed or uncrewed travel between stars and planets, usually within a single planetary system. In practice, spaceflights of this type are confined to travel between the planets of the Solar System. Uncrewed space probes have flown to all the observed planets in the Solar System as well as to dwarf planets Pluto and Ceres, and several asteroids. Orbiters and landers return more information than fly-by missions. Crewed flights have landed on the Moon and have been planned, from time to time, for Mars, Venus and Mercury. While many scientists appreciate the knowledge value that uncrewed flights provide, the value of crewed missions is more controversial. Science fiction writers propose a number of benefits, including the mining of asteroids, access to solar power, and room for colonization in the event of an Earth catastrophe.

<span class="mw-page-title-main">Space exploration</span> Exploration of space, planets, and moons

Space exploration is the use of astronomy and space technology to explore outer space. While the exploration of space is currently carried out mainly by astronomers with telescopes, its physical exploration is conducted both by uncrewed robotic space probes and human spaceflight. Space exploration, like its classical form astronomy, is one of the main sources for space science.

<span class="mw-page-title-main">4 Vesta</span> Second largest asteroid of the main asteroid belt

Vesta is one of the largest objects in the asteroid belt, with a mean diameter of 525 kilometres (326 mi). It was discovered by the German astronomer Heinrich Wilhelm Matthias Olbers on 29 March 1807 and is named after Vesta, the virgin goddess of home and hearth from Roman mythology.

<span class="mw-page-title-main">Gravity assist</span> Space navigation technique

A gravity assist, gravity assist maneuver, swing-by, or generally a gravitational slingshot in orbital mechanics, is a type of spaceflight flyby which makes use of the relative movement and gravity of a planet or other astronomical object to alter the path and speed of a spacecraft, typically to save propellant and reduce expense.

<i>New Horizons</i> NASA spacecraft launched in 2006

New Horizons is an interplanetary space probe launched as a part of NASA's New Frontiers program. Engineered by the Johns Hopkins University Applied Physics Laboratory (APL) and the Southwest Research Institute (SwRI), with a team led by Alan Stern, the spacecraft was launched in 2006 with the primary mission to perform a flyby study of the Pluto system in 2015, and a secondary mission to fly by and study one or more other Kuiper belt objects (KBOs) in the decade to follow, which became a mission to 486958 Arrokoth. It is the fifth space probe to achieve the escape velocity needed to leave the Solar System.

<i>Pluto Kuiper Express</i> Cancelled NASA flyby mission to Pluto

Pluto Kuiper Express was an interplanetary space probe that was proposed by Jet Propulsion Laboratory (JPL) scientists and engineers and under development by NASA. The spacecraft was intended to be launched to study Pluto and its moon Charon, along with one or more other Kuiper belt objects (KBOs). The proposal was the third of its kind, after the Pluto 350 and a proposal to send a Mariner Mark II spacecraft to Pluto.

<i>Dawn</i> (spacecraft) NASA orbiter mission to asteroid Vesta and dwarf planet Ceres (2007–2018)

Dawn is a retired space probe that was launched by NASA in September 2007 with the mission of studying two of the three known protoplanets of the asteroid belt: Vesta and Ceres. In the fulfillment of that mission—the ninth in NASA's Discovery Program—Dawn entered orbit around Vesta on July 16, 2011, and completed a 14-month survey mission before leaving for Ceres in late 2012. It entered orbit around Ceres on March 6, 2015. In 2017, NASA announced that the planned nine-year mission would be extended until the probe's hydrazine fuel supply was depleted. On November 1, 2018, NASA announced that Dawn had depleted its hydrazine, and the mission was ended. The derelict probe remains in a stable orbit around Ceres.

The New Frontiers program is a series of space exploration missions being conducted by NASA with the purpose of furthering the understanding of the Solar System. The program selects medium-class missions which can provide high science returns.

<span class="mw-page-title-main">Ceres (dwarf planet)</span> Dwarf planet in the asteroid belt

Ceres is a dwarf planet in the middle main asteroid belt between the orbits of Mars and Jupiter. It was the first known asteroid, discovered on 1 January 1801 by Giuseppe Piazzi at Palermo Astronomical Observatory in Sicily, and announced as a new planet. Ceres was later classified as an asteroid and then a dwarf planet, the only one not beyond Neptune's orbit.

<span class="mw-page-title-main">Dwarf planet</span> Small planetary-mass object

A dwarf planet is a small planetary-mass object that is in direct orbit around the Sun, massive enough to be gravitationally rounded, but insufficient to achieve orbital dominance like the eight classical planets of the Solar System. The prototypical dwarf planet is Pluto, which for decades was regarded as a planet before the "dwarf" concept was adopted in 2006.

<span class="mw-page-title-main">Exploration of Jupiter</span> Overview of the exploration of Jupiter the planet and its moons

The exploration of Jupiter has been conducted via close observations by automated spacecraft. It began with the arrival of Pioneer 10 into the Jovian system in 1973, and, as of 2024, has continued with eight further spacecraft missions in the vicinity of Jupiter and two more en route. All but one of these missions were undertaken by the National Aeronautics and Space Administration (NASA), and all but four were flybys taking detailed observations without landing or entering orbit. These probes make Jupiter the most visited of the Solar System's outer planets as all missions to the outer Solar System have used Jupiter flybys. On 5 July 2016, spacecraft Juno arrived and entered the planet's orbit—the second craft ever to do so. Sending a craft to Jupiter is difficult, mostly due to large fuel requirements and the effects of the planet's harsh radiation environment.

<span class="mw-page-title-main">Planetary flyby</span> Sending a space probe past a planet or dwarf planet

A planetary flyby is the act of sending a space probe past a planet or a dwarf planet close enough to record scientific data. This is a subset of the overall concept of a flyby in spaceflight.

<span class="mw-page-title-main">Discovery and exploration of the Solar System</span>

Discovery and exploration of the Solar System is observation, visitation, and increase in knowledge and understanding of Earth's "cosmic neighborhood". This includes the Sun, Earth and the Moon, the major planets Mercury, Venus, Mars, Jupiter, Saturn, Uranus, and Neptune, their satellites, as well as smaller bodies including comets, asteroids, and dust.

<span class="mw-page-title-main">Exploration of Pluto</span> Overview of the exploration of Pluto

The exploration of Pluto began with the arrival of the New Horizons probe in July 2015, though proposals for such a mission had been studied for many decades. There are no plans as yet for a follow-up mission, though follow-up concepts have been studied.

<span class="mw-page-title-main">Outline of the Solar System</span> Overview of and topical guide to the Solar System

The following outline is provided as an overview of and topical guide to the Solar System:

<span class="mw-page-title-main">Planetary Missions Program Office</span> Division of NASA

The Planetary Missions Program Office is a division of NASA headquartered at the Marshall Space Flight Center, formed by the agency's Science Mission Directorate (SMD). Succeeding the Discovery and New Frontiers Program Office, it was established in 2014 to manage the Discovery and New Frontiers programs of low and medium-cost missions by third-party institutions, and the Solar System Exploration program of NASA-led missions that focus on prioritized planetary science objectives. The Discovery and New Frontiers programs were established in 1992 and 2001 respectively, and have launched fourteen primary missions together, along with two missions launched under the administration of the Planetary Missions Program Office. The Solar System Exploration Program was established alongside the office, with three missions planned for launch under the new program.

Shensuo, formerly Interstellar Express, is a proposed Chinese National Space Administration program designed to explore the heliosphere and interstellar space. The program will feature two or three space probes that were initially planned to be launched in 2024 and follow differing trajectories to encounter Jupiter to assist them out of the Solar System. The first probe, IHP-1, will travel toward the nose of the heliosphere, while the second probe, IHP-2, will fly near to the tail, skimming by Neptune and Triton in January 2038. There may be another probe—tentatively IHP-3—which would launch in 2030 to explore to the northern half of the heliosphere. IHP-1 and IHP-2 would be the sixth and seventh spacecraft to leave the Solar System, as well as first non-NASA probes to achieve this status.

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