In the previous article we discussed new discoveries and scientific advances ranging from the United States of America to Russia, Great Britain, Germany and Finland. In this article we will look at breakthroughs in further countries.

For the first time the Hayabusa 2 probe of the Japan Aerospace Exploration Agency’s (JAXA) has brought back gas from asteroid 162173 Ryugu (the orbit of which is close to that of the Earth) discovered in 1999. The mission was launched on 3 December. On 27 June 2018, the probe reached the asteroid orbiting it at a distance of about 20 kilometres. After about one year and a half of measurements and surveys, the probe began its manoeuvres to approach the Earth on 13 November 2019, carrying the samples collected on Ryugu‘s surface in a capsule. On 6 December 2020, the capsule containing the samples collected on the asteroid re-entered the Earth’s atmosphere to land in the Australian desert, while the Hayabusa 2 probe continued its mission by heading into deep space to reach the 1998 KY26 asteroid.

The analysis of these gases may reveal the history of the aforementioned celestial body and help scientists further clarify the history of the solar system as it evolved. Japanese scientists detected more than twenty amino acids in the samples collected by the Hayabusa 2 probe. This is the first evidence of the existence of amino acids outside of Earth and has important implications for understanding how these vital organic molecules arrived on Earth. The analysis of the samples also showed that water on Earth may have been brought by asteroids from the outer edge of the solar system. The latest research unravels the mystery of how the ocean formed on Earth billions of years ago.

Scientists at Hokkaido University discovered that essential pyrimidine nitrogen bases (found in nucleic acids) – which make up DNA and RNA – may have been brought to Earth by carbon-rich meteorites. The research team analysed three of these meteorites and, in addition to the compounds previously detected in them, the aforementioned pyrimidine bases, such as cytosine and thymine, were found for the first time in concentrations of parts per billion. The research results show that this type of compound can be produced by a photochemical reaction and reach the Earth via meteorites, which may play an important role in the genetic function of the first manifestations of life on our planet.

Let us turn to Brazil, which is the only country in the Southern hemisphere which masters aerospace technology, with satellites, rockets, vehicles and launch sites. The Brazilian government places space activities at the top of its priority development agenda. Space research carried out by the Agência Espacial Brasileira focuses mainly on Earth observation, communication and meteorology. At the same time, Brazil is also strengthening the construction of infrastructure and the training of human resources for such studies.

The People’s Republic of China is an important aerospace cooperation partner of Brazil. The aerospace departments of China and Brazil actively implement the Cooperation Plan 2013-2022 of the National Space Administration of China and of the Brazilian Space Agency, respectively, and continue to expand into satellite exploration, manned spaceflight, including deepening studies in the field. There are plans to build a new cooperation platform in the areas of space technology, space applications, space science and ground equipment, personnel training, measurement and control support, as well as launch services.

In Brazil the China-Brazil Space Weather Joint Laboratory and the Universidade Federal do Recôncavo da Bahia started a new cooperation at the beginning of April 2022. The two parties jointly established tools and equipment for scientific research and implemented data sharing. The collaboration succeeded in bringing the remote city of Santarém (Pará State) onto the map of an international sensor network for space meteorology research. It is also the latest tool in the South American magnetometer network shared between the Chinese Meridian Project and the Estudo e Monitoramento Brasileiro do Clima Espacial (EMBRACE).

In terms of international cooperation, on 25 May 2022 the BRICS countries (Brazil-Russia-India-China-South Africa) established the Joint Space Cooperation Committee, which officially opened the joint observation and data sharing of the “constellation” of remote-sensing satellites of these States. The “constellation” consists of six existing satellites from the BRICS countries. Carlos Moura, director of the Agência Espacial Brasileira, said that the creation of a virtual “constellation” of remote-sensing satellites between the space agencies of the BRICS countries and the establishment of a data-sharing mechanism will help address the challenges faced by human beings such as global climate change, major disasters and environmental protection.

In Israel, too, the promotion of lunar satellite exploration and of private aerospace innovation has achieved remarkable results. As early as 2022 Israel has increased its support for the private aerospace industry and has achieved a number of notable technological advances concerning space. On 6 January 2022, the Israel Innovation Authority announced a grant of six million dollars to eleven private aerospace companies for the development of new space technologies. The above-mentioned companies cover many technical fields such as the Internet of Things (IoT), i.e. the so-called “smart objects”. We are not just talking about computers, smartphones and tablets, but above all about the objects that surround us in our homes, at work, in cities, in our everyday lives. The IoT was born right from the idea of bringing the objects of our everyday life and experience into the digital world.

Israel, however, is also developing the space construction of small satellites, new materials, lunar oxygen production, advanced sensors and Hall thrusters. Over the next five years, IIA plans to fund USD 180 million to continue supporting the development of the private aerospace industry.

Last year the Israeli defence company Rafael launched a “constellation” of high-resolution, high-revision satellites. The image resolution is less than 30 cm. At the same time, the revision time of the ground-based target of less than 10 minutes can be achieved by drawing the orbit of the “constellation”. Pictures of the same ground-based target can be continuously taken at intervals of several minutes. Furthermore, the Israeli Ministry of Defence’s Ofek satellite programme won the Israel Defence Award 2022. In 2020 Israel had launched the Ofek-16 satellite, which is the programme’s third-generation satellite, weighs approximately 300-400 kilograms, and has an orbital altitude of 600 kilometres. All Ofek satellites are launched by the Shavit carrier rocket from the Palmachim air base in Israel, on the Mediterranean coast.

The Israeli non-profit aerospace organisation SpaceIL is preparing to launch the country’s second lunar probe in 2024 or 2025. The plan will carry multiple lunar experimental devices: the first experimental project was defined in late August 2022 and its content was to test the stability of drugs on the moon, under the responsibility of scholars from the Hebrew University of Jerusalem.

In October 2022, the Ben-Gurion University of Negev and the Queensland Academy for Science, Mathematics and Technology (QASMT) created a research group that announced they would use a probe to conduct tests on plant growth on the Moon.

Meanwhile, France is investing in the construction of the Internet via satellite. Last year the French company Thales, together with the US company Qualcomm and the Swedish group Ericsson, planned to connect smartphones directly to satellite communications via small groups of satellites around the Earth over the next five years, in order to provide 5G coverage in areas not covered by terrestrial antennas, thus providing a service that lies between satellite telephone systems and satellite Internet providers such as Starlink. The project plans to invest eight billion euros. Thales will build the satellites; Qualcomm will supply the smartphones and Ericsson will install the terrestrial core network. This project has led to a shift from competition to cooperation between telecommunications and satellite companies in the field of networks.

In terms of space planning and investment, in September 2022 France held the International Astronautical Congress in Paris and announced that it would invest over nine billion euros in space from 2023 to 2025 for the development and expansion of the space industry.

At EU level, the European Space Agency (ESA) held a Summit last November and decided that the budget for the following three years would be EUR 16.9 billion, a 17 per cent increase, but less than the EUR 18.5 billion requested by its Director General. The funds are mainly provided by Germany, France and Italy. The new funding allows the continuation of the European programmes on Ariane 6 and Vega launchers, while enabling Europe to participate in the global competition for small launchers. The EU will also provide support for Moon and Mars probes in order to expand cooperation with the United States of America in Moon and Mars exploration.

In the Republic of Korea (South Korea) the second test launch of the domestically produced Nuri rocket successfully placed several satellites into orbit on Tuesday, marking an important step in the efforts to restart its space programme after the failure of an initial test in 2021.

At 4 pm on 21 June 2022, the Korean rocket was successfully launched from the Naro Space Center on the country’s Southern coast. A 162.5 kg satellite designed to test the rocket’s performance successfully made contact with a base station in Antarctica after entering orbit.

On 30 November 2021, the South Korean government had released the fourth basic plan for space development, proposing five main tasks relating to the development of the space industry, i.e. expanding the scope of space exploration; sending manned spacecraft; developing the South Korean space industry; overseeing and supervising space security issues; and conducting space-related research.

South Korean President Yoon Suk-yeol has clearly stated his State’s intentions to land on the Moon in 2032 and on Mars in 2045. Some South Korean academic circles, however, have called this into question, as the Republic of Korea’s talent pool, budget, and technical level in the aerospace sector cannot objectively support the expected effort.

Giancarlo Elia Valori