Rocket designed to take measurements during its flight
A sounding rocket or rocketsonde, sometimes called a research rocket or a suborbital rocket, is an instrument-carrying rocket designed to take measurements and perform scientific experiments during its
sub-orbital flight. The rockets are used to launch instruments from 48 to 145 km (30 to 90 miles)[1] above the surface of the Earth, the altitude generally between
weather balloons and
satellites; the maximum altitude for balloons is about 40 km (25 miles) and the minimum for satellites is approximately 121 km (75 miles).[2] Certain sounding rockets have an
apogee between 1,000 and 1,500 km (620 and 930 miles), such as the
Black Brant X and XII, which is the maximum apogee of their class. Sounding rockets often use military surplus rocket motors.[3] NASA routinely flies the Terrier Mk 70 boosted
Improved Orion, lifting 270–450-kg (600–1,000-pound) payloads into the
exoatmospheric region between 97 and 201 km (60 and 125 miles).[4]
Etymology
The origin of the term comes from nautical vocabulary to
sound, which is to throw a weighted line from a ship into the water to measure the water's depth. The term itself has its etymological roots in the
Romance languages word for probe, of which there are nouns sonda and sonde and verbs like sondear which means "to do a survey or a poll". Sounding in the rocket context is equivalent to "taking a measurement".[3]
Design
The basic elements of a sounding rocket are a
solid-fuel rocket motor and a science
payload.[3] Larger, higher altitude rockets have two to three
stages to increase efficiency and payload capability. The
freefall part of the flight is an
elliptic trajectory with vertical
major axis allowing the payload to appear to hover near its
apogee.[2] The average flight time is less than 30 minutes; usually between five and 20 minutes.[2] The rocket consumes its fuel on the
first stage of the rising part of the flight, then separates and falls away, leaving the payload to complete the arc and return to the ground under a
parachute.[3]
Advantages
Sounding rockets are advantageous for some research because of their low cost,[2] relatively short
lead time (sometimes less than six months)[3] and their ability to conduct research in areas inaccessible to either balloons or satellites. They are also used as test beds for equipment that will be used in more expensive and risky
orbital spaceflight missions.[2] The smaller size of a sounding rocket also makes launching from temporary sites possible, allowing
field studies at remote locations, and even in the middle of the ocean, if fired from a ship.[5]
Common meteorological rockets are the
Loki and
Super Loki, typically 3.7 m tall and powered by a 10 cm diameter
solid fuel rocket engine. The rocket engine separates at an altitude of 1500 m and the rest of the rocketsonde coasts to
apogee (highest point). This can be set to an altitude of 20 km to 113 km.
Research
Sounding rockets are commonly used for:
Research in
aeronomy, the study of the
upper atmosphere, which requires this tool for in situ measurements in the upper atmosphere
Microgravity research which benefits from a few minutes of
weightlessness on rockets launched to altitudes of a few hundred kilometers
Remote Sensing of Earth Resources uses sounding rockets to get an essentially instant synoptic view of the geographical area under observation.[6]
Dual use
Due to the high military relevance of ballistic missile technology, there has always been a close relationship between sounding rockets and military missiles. It is a typical
dual-use technology, which can be used for both civil and military purposes. During the
Cold War, the Federal Republic of Germany cooperated on this topic with countries that had not signed the
Non-Proliferation Treaty on Nuclear Weapons at that time, such as Brazil, Argentina and India. In the course of investigations by the
German peace movement, this cooperation was revealed by a group of physicists in 1983.[7] The international discussion that was thus set in motion led to the development of the
Missile Technology Control Regime (MTCR) at the level of G7 states. Since then, lists of technological equipment whose export is subject to strict controls have been drawn up within the MTCR framework.
Operators and programs
Andøya Space Center in Norway operates two sounding rocket launch sites, one at Andøya and one at Svalbard. Has launched sounding rockets since 1962.
The British
Skylark sounding rocket programme began in 1955 and was used for 441 launches from 1957 to 2005. Skylark 12, from 1976, could lift 200 kilograms (440 lb) to 575 kilometres (357 mi) altitude.[8]
The British also developed the
Falstaff sounding rocket as a part of the [Chevaline] program. There were eight launches between 1969 and 1979 from the
Woomera Test Range, Australia.
ISRO's
VSSC developed the
Rohini sounding rockets series starting in 1967 that reached altitudes of 500 km[9][10]
Evolution Space operates the Gold Chain Cowboy sounding rocket with launch to 124.5 km on April 22, 2023.[11]
The Australian Space Research Institute (
ASRI) operates a Small Sounding Rocket Program (SSRP) for launching payloads (mostly educational) to altitudes of about 7 km
Indian Institute of Space Science and Technology (IIST) launched a Sounding Rocket (Vyom) in May, 2012, which reached an altitude of 15 km. Vyom Mk-II is in its conceptual design stage with an objective to reach 70 km altitude with 20 kg payload capacity.[12]
The
University of Queensland operates Terrier-Orion sounding rockets (capable of reaching altitudes in excess of 300 km) as part of their
HyShot hypersonics research
The
JAXA operates the sounding rockets
S-Series: S-310 / S-520 / SS-520.
United States/New Zealand company
Rocket Lab developed the highly adaptable Ātea series of sounding rockets to carry 5–70 kg payloads to altitudes of 250 km or greater
The
Meteor rockets were built in Poland between 1963 and 1974.
The
Kartika I rocket was built and launched in Indonesia by
LAPAN on 1964, becoming the third sounding rocket in Asia, after those from Japan and Pakistan.
The
Soviet Union developed an extensive program using rockets such as the
M-100, the most used ever; its successor by its successor state, Russia, is the
MR-20 and later the MR-30.
Brazil has been launching its own sounding rockets since 1965. The largest and most current family of rocket are the Sonda, which are the R&D basis for Brazil's soon-to-be-launched VLS satellite launcher. Other rockets include the
VSB-30
The
Experimental Sounding Rocket Association (ESRA) is a non-profit organization based in the United States which has operated the Intercollegiate Rocket Engineering Competition (IREC) since 2006.[13]
ONERA in France launched a sounding rocket named
Titus, developed for observation of the total
solar eclipse in Argentina on November 12, 1966. Titus was a two-stage rocket with a length of 11.5 m, a launch weight of 3.4 tons, and a diameter of 56 cm. It reached a maximum height of 270 kilometers. It was launched twice in
Las Palmas, Chaco during the eclipse, in collaboration with the Argentine space agency CNIE.[14]
German Aerospace Center's Mobile Rocket Base (
DLRMORABA) designs, builds and operates a variety of sounding rocket types and custom vehicles in support for national and international research programs.
Interstellar Technologies is a Japanese company that is developing the experimental MOMO sounding rocket.