Explorer 49 (also called Radio Astronomy Explorer-2, RAE-B) was a

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satellite launched on 10 June 1973, for

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radio astronomy Radio astronomy is a subfield of astronomy that studies celestial objects at radio frequencies. The first detection of radio waves from an astronomical object was in 1933, when Karl Jansky at Bell Telephone Laboratories reported radiation comin ...

research. It had four X-shaped antenna elements, which made it one of the largest spacecraft ever built.

Mission

The Radio Astronomy Explorer B (RAE-B) mission was the second of a pair of RAE satellites. It was placed into

lunar orbit In astronomy, lunar orbit (also known as a selenocentric orbit) is the orbit of an object around the Moon. As used in the space program, this refers not to the orbit of the Moon about the Earth, but to orbits by spacecraft around the Moon. The ...

to provide radio astronomical measurements of the planets, the Sun, and the galaxy over the frequency range of 25-kHz to 13.1-MHz. The experiment complement consisted of two Ryle-Vonberg radiometers (nine channels each), three swept-frequency burst receivers (32 channels each), and an impedance probe for calibration. The experiment antenna package, made of BeCu, consisted of very long travelling wave antennas forming an X configuration: a upper V-antenna pointed away from the Moon; a lower V-antenna pointed toward the Moon; and a dipole antenna parallel to the lunar surface. There was also a boron libration damper boom system used to damp out any spacecraft oscillations about the equilibrium position.

Spacecraft

The spacecraft body, constructed of

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and aluminum honeycomb, had a mass of at launch and in lunar orbit. It was a truncated cylinder in diameter and approximately high, with four fixed solar paddles. The solar arrays were n-p solar cells generating 25

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s and powering nickel-cadmium batteries. The maneuvering system consisted of a hydrazine velocity correction package, a cold gas attitude control system, and a solid fuel lunar insertion motor. Data were returned to the Earth via either a low power UHF/(400-MHz) transmitter, in real time, or stored in an onboard tape recorder and transmitted to Earth via a high power

Ultra high frequency Ultra high frequency (UHF) is the ITU designation for radio frequency, radio frequencies in the range between 300 megahertz (MHz) and 3 gigahertz (GHz), also known as the decimetre band as the wavelengths range from one meter to one ten ...

(UHF) transmitter (400-

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). Two tape recorders provided backup storage. A

Very high frequency Very high frequency (VHF) is the ITU designation for the range of radio frequency electromagnetic waves ( radio waves) from 30 to 300 megahertz (MHz), with corresponding wavelengths of ten meters to one meter. Frequencies immediately below VHF ...

(VHF) transmitter served primarily for range and range-rate measurements and as a backup. Commands were received on a VHF (148-MHz) receiver, which also was a part of the range and range-rate system. Spacecraft attitude was determined by: (1) a solar aspect system, (2) a horizon sensor system and (3) a panoramic attitude sensor system, and was accurate to 1°. The spacecraft was

gravity gradient Gravity gradiometry is the study and measurement of variations ( anomalies) in the Earth's gravity field. The gravity gradient tensor is the spatial rate of change of gravitational acceleration; as acceleration is a vector quantity, with magnit ...

oriented (Z axis parallel to local vertical).

Launch

Explorer 49 was launched after the termination of the Apollo program in 1972, and although it did not examine the Moon directly, it became the last American lunar orbital mission until the launch of ''

Clementine A clementine (''Citrus × clementina'') is a tangor, a citrus fruit hybrid between a willowleaf mandarin orange ( ''C.'' × ''deliciosa'') and a sweet orange (''C. × sinensis''), named in honor of Clément Rodier, a French missionary who fir ...

'' spacecraft in 1994. It was launched on 10 June 1973, at 14:13:00 UTC from

Cape Canaveral , image = cape canaveral.jpg , image_size = 300 , caption = View of Cape Canaveral from space in 1991 , map = Florida#USA , map_width = 300 , type =Cape , map_caption = Location in Florida , location ...

by the Delta 1913 from the launch site

LC-17B Space Launch Complex 17 (SLC-17), previously designated Launch Complex 17 (LC-17), was a launch site at Cape Canaveral Air Force Station (CCAFS), Florida used for Thor and Delta launch vehicles launches between 1958 and 2011. It was built in 1 ...

Orbit

Explorer 49 was placed into lunar orbit so that radio waves from Earth would not be as big of an interference as Explorer 38 had discovered. After launch on a direct ascent trajectory to the Moon and one mid-course correction on 11 June 1973, was placed into lunar orbit on 15 June 1973, at 07:21 UTC, after a 20 seconds firing of the solid apogee kick motor, and began operations on 20 June 1973. Initially only the dipole antenna was deployed, during which the spacecraft was operated in a 4-

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spin-stabilized mode with the spin axis in the

ecliptic The ecliptic or ecliptic plane is the orbital plane of the Earth around the Sun. From the perspective of an observer on Earth, the Sun's movement around the celestial sphere over the course of a year traces out a path along the ecliptic again ...

plane normal to the spacecraft-Sun line. After three weeks the dipole booms were retracted, the spacecraft reoriented, the long-V antennas and libration damper were extended, and the dipole was redeployed. The lower V-antenna was initially extended to during the first 16 months of flight and was extended to its full length in November 1974. The lunar orbit and position of the Earth as a radio source imposed periodicities on the observations of 29.5 days (the lunar synodic month) and 24.8 hours (the interval between consecutive sweeps of a given Earth geographic position past the Moon.

Experiments

The

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for all the experiments was Dr. Robert G. Stone.

Impedance Probe

* This experiment was an engineering experiment to check the upper v-antenna. It was used only for routine confirmation of antenna characteristics early in the flight.

Rapid-Burst Receivers

The burst receivers (BR) were 32-channel, stepped-frequency (25-kHz to 13.1-MHz) receivers, which obtained one sample at each frequency every 7.68-seconds. One receiver (BR-1) was connected to the upper V-antenna and one receiver (BR-2) was connected to the lower V-antenna. A third burst receiver was connected to the dipole antenna, but it failed 1 week into the flight and no significant data resulted. The RF voltage at the feed point of each half of the V-antenna was sampled by a wideband, high-impedance preamplifier, and the preamplifier outputs were combined in a balun transformer and fed to the burst receiver. Each burst receiver was composed of a pair of redundant IF amplifiers and detectors, which shared a common set of crystal-controlled local oscillators and mixers. Only one IF strip was powered on at a given time; the other was used as a backup system. Low-pass filters at the input of the burst receiver prevented strong signals at the 21.4-MHz intermediate frequency from entering the IF strip. Each receiver had a crystal-controlled IF bandwidth of 20-kHz and a post detection integration time constant of 6 ms. A thermistor located in each burst receiver provided a measurement of the ambient temperature of the receiver, and this information was included in the housekeeping data telemetered every 19.7 minutes. Also, the normal antenna signal measurement sequence was interrupted for 1.28 minutes every 19.7 minutes, and calibration noise source signals were injected into each burst receiver to provide a check of their long-term gain stability. The total dynamic range of the burst receivers was approximately 60 dB and was divided into two 30-dB ranges by logic circuitry in the detector electronics. The limit of the input signal level resolution that was due to telemetry quantization step size was about 0.3 dB. Saturation level signals at the preamplifier input often resulted in the generation of intermodulation products in the radio frequency amplifiers, which then appeared as wideband signals in the telemetered data. This problem was most acute when intense kilometer wavelength emissions from the terrestrial magnetosphere were observed at frequencies in the 200 to 300-kHz range. BR-1 was less susceptible to intermodulation problems than BR-2 by 6 to 10 dB. Because of a failure in the local oscillator circuitry in BR-1, channels 4 (55-kHz) and 12 (210-kHz) did not provide usable data. During periods when a portion of each orbit was in the lunar shadow, cyclic variations in thermal gradients across the V-antenna booms resulted in scissor-mode oscillations of the booms, which did not occur when the spacecraft was in 100% sunlight. This effect had a period of approximately 50 minutes (the scissor-mode period) and was most pronounced on the upper V-antenna during the first and fifth lunar shadow period and on the lower V-antenna during the second and third lunar shadow periods.

Step Frequency Radiometers

The Ryle-Vonberg (RV) receivers were designed to provide measurements that were relatively insensitive to gain and bandwidth changes. There were two receivers—RV-1 connected to the upper V-antenna and RV-2 connected to the lower V-antenna. The radiometers had an effective bandwidth of 40-kHz and a postdetection time constant of 0.1-second. A coarse output channel was obtained from the integrated servo-loop error signal, and a fine output channel was obtained from the noise source output required to match the antenna signal. The time constant for the fine channel was 0.5-second. A

thermistor A thermistor is a type of resistor whose resistance is strongly dependent on temperature, more so than in standard resistors. The word thermistor is a portmanteau of ''thermal'' and ''resistor''. Thermistors are divided based on their conduction ...

located in the receiver measured the ambient temperature, which was telemetered every 19.7 minutes in the housekeeping data. The receivers operated at nine frequencies from 0.45 to 9.18-MHz. Each frequency was selected for 15.4-seconds before stepping to the next. During this time, eight coarse and two fine samples were taken. Of the eight coarse samples, the first was not reliable since not enough time had elapsed for the receiver to stabilize after the frequency switch was made.

End of the mission

The contact was lost in August 1977, the orbiter presumably crashed some time after this.

References

External links

Astronautix.com Page on the Radio Astronomy Explorers

National Space Science Data Center Page on RAE-B (Explorer 49)

Delta-95, RAE-B Operations Summary

On Obtaining Lunar Mission Launch Opportunities
(Report on Launch/Trajectory planning for the RAE-B mission)
RAE-B antenna aspect system
(Report on the camera system used to verify the antenna deployment of Explorer 49)
RAE-B antenna aspect processor
(Report on the processing hardware for the RAE-B Camera system)
Proposed gravity-gradient dynamics experiments in lunar orbit using the RAE-B spacecraft

{{Orbital launches in 1973 1973 in spaceflight Explorers Program Missions to the Moon Satellites orbiting the Moon Spacecraft launched in 1973