Successful launch of CERN’s first satellite

With the launch of the CELESTA satellite, intended to monitor radiation in space, CERN demonstrated its know-how on the effects of radiation on electronics.

This photograph shows CELESTA, CERN’s first technology demonstrator in space. It was taken when the satellite (may refer to satellite 🙂 Experiments were conducted at the CHARM facility at CERN. (Photo: CERN)

Celesta, first the satellite (may refer to satellite 🙂 made as a part project (A project is an irrevocable commitment to uncertain results, which are not reproducible…) Powered by CERN, Access orbit (In celestial mechanics, an orbit is the path traced by a body in space…) Successfully on first flight Launcher (pitcher, astronautics pitcher sound, baseball sound) of the European Vega-C satellite. Launched byEuropean Space Agency (The European Space Agency (ESA) is…) from Guyana Space Center (The Guiana Space Center (CSG) is a French and European launch base,…) At 13:13 UTC July 13, 2022, the satellite was deployed without any problems and transmitted its first signal in the afternoon.

Weighing one kilogram and measuring ten centimeters on a side, CELESTA (CERN latchup and radmon test student satellites) is a satellite in shape cube (In Euclidean geometry, a cube is a prism with all its faces square…) Consists of a single unit (1U CubeSat) designed to study the effects of cosmic rays on electronics. The satellite carries “Space Redmon“, a miniature version of a radiation monitoring device that has proven itself with Grand clasher (A collider is a type of particle accelerator that involves beams…) of Hadrons at CERN (LHC). Sent to CELESTA Earth’s orbit (Earth’s orbit is an orbit around the Earth. The Moon, the only satellite…) to one height (Elevation is the vertical height of a place or object relative to a level…) Out of about 6,000 kilometers (The meter (symbol m, from the Greek metron, measure) is the basic unit of length in the system…). “CELESTA will study, at the heart of the inner Van Allen belt, a specific orbit where radiation is at its highest.“, explains Markus Brugger, Head of Zone D’test (Examination is a scientific method of testing by experiment…)and under the CHARM and CELESTA project initiatives as part of the R2E project (Electronics radiation)

Space RADMON is a remarkable example of the applications that CERN technology can find beyond the field (A field corresponds to the concept of defined space 🙂 experience of particle physics (Particle physics is the branch of physics that studies matter…). “Made entirely from standardized and ultra-sensitive components, selected and calibrated by CERN, mainly at its facilities, the Space Rademon is a light and low-power instrument, ideal (In mathematics, an ideal is an algebraic structure defined by a ring…) For future risk-tolerant space missionsRuben García Alia, head of the R2E project, explained. If CELESTA succeeds in its mission, Space RadMon could even become a predictive maintenance tool for constellations of satellites, to anticipate their replacement, which will eventually be inevitable.

A copy of the CELESTA satellite (radiation model) was also tested at the CHARM facility, a CERN facility capable of emitting large amounts of radiation, offering a wide range of radiation types.Low Earth Orbit (Low Earth Orbit (LEO) is a region of Earth’s orbit…). The mission should ensure this capability. “CHARM is able to test satellites as a whole rather than component by component, making it a unique facility in the world, too. different (In mathematics, the difference is defined in algebraic theorems…) Other test infrastructureradiation (In nuclear physics, radiation means the act of exposing (voluntarily or…). It offers a simple, low-cost alternative and allows system-level impacts to be assessed.” Salvatore Danzeca, coordinator of the CHARM installation, explained.

The success of this satellite is the result of a fruitful partnership between CERN andUniversity of Montpellier (The University of Montpellier was an educational institution…) ; Many students from both institutions as well as CERN experts participated in the effects of radiation. Based on CELESTA’s radioresistant platform Space Center (A space center is a place dedicated to astronaut activities. It can…) University of Montpellier (CSUM) and will be piloted from it control center (A control center, in aerospace, a room from which…). l’space agency (A space agency is a government agency whose purpose is to study and develop space…) European a is provided (Fournoi Korséon (Greek: Φούρνοι…) The Launch slot (A launch window, in the case of aerospace, a or…) As part of its program on small satellites.

CELESTA, which aims to make space more accessible, is a promising example of how CERN can positively impact the space industry.. With this mission, CERN presents affordable solutions to measure radiation and test the radio-resistance of satellites, thus enabling universities, companies and start-ups to realize their space ambitions.“, concluded Enrico Chesta, Coordinator of Space and Environmental Applications within the CERN Knowledge Transfer Group.

More information:
video (The video combines all the techniques, techniques, which along with the recording…) of launch

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