Pioneer Venus Orbiter

Pioneer Venus Orbiter

Artist's impression of Pioneer 12 in orbit above Venus
Names	Pioneer Venus 1 Pioneer 12
Mission type	Venus orbiter
Operator	NASA / Ames
COSPAR ID	1978-051A
SATCAT no.	10911
Website	science.nasa.gov
Mission duration	Total: 14 years, 4 months and 18 days Science phase: 13 years, 10 months and 4 days
Spacecraft properties
Bus	HS-507
Manufacturer	Hughes
Launch mass	582 kg (1,283 lb)[1]
Dry mass	517 kg (1,140 lb)
Dimensions	2.5 × 2.5 × 1.2 m (8.2 × 8.2 × 3.9 ft)
Power	312 watts
Start of mission
Launch date	May 20, 1978, 13:13:00 (1978-05-20UTC13:13Z) UTC [1]
Rocket	Atlas SLV-3D Centaur-D1AR (AC-50)
Launch site	Cape Canaveral LC-36A
End of mission
Disposal	Decommissioned
Last contact	October 8, 1992, 19:22 (1992-10-08UTC19:23Z) UTC
Decay date	October 22, 1992[2]
Orbital parameters
Reference system	Cytherocentric
Semi-major axis	33,405.8 km (20,757.4 mi)
Eccentricity	0.842
Pericytherion altitude	181.6 km (112.8 mi)
Apocytherion altitude	66,630 km (41,400 mi)
Inclination	105 degrees
Period	24 hours
Epoch	22 November 1979, 11:53:20 UTC[3]
Venus orbiter
Orbital insertion	December 4, 1978
Pioneer program ← Pioneer 11 Pioneer 13 → Pioneer Venus

The Pioneer Venus Orbiter, also known as Pioneer Venus 1 or Pioneer 12, was a mission to Venus conducted by NASA as part of the Pioneer Venus project. Launched in May 1978 atop an Atlas-Centaur rocket, the spacecraft was inserted into an elliptical orbit around Venus on December 4, 1978. It returned data from Venus until October 1992.^[2][4]

The spacecraft conducted radar altimetry observations allowing the first global topographic map of the Venusian surface to be constructed.

Manufactured by Hughes Aircraft Company, the Pioneer Venus Orbiter was based on the HS-507 bus.^[5] The spacecraft was a flat cylinder, 2.5 meters (8.2 ft) in diameter and 1.2 meters (3.9 ft) long. All instruments and spacecraft subsystems were mounted on the forward end of the cylinder, except the magnetometer, which was at the end of a 4.7 meters (15 ft) boom. A solar array extended around the circumference of the cylinder. A 1.09 metres (3 ft 7 in) despun dish antenna provided S and X band communication with Earth. A Star 24 solid rocket motor was integrated into the spacecraft to provide the thrust to enter orbit around Venus.^[5]

The Pioneer Venus Orbiter carried 17 experiments with a total mass of 45 kilograms (99 lb):^[6]

The Orbiter Cloud Photopolarimeter was used to measure the vertical distribution of clouds on Venus. It was a photo-polarimeter built by the Goddard Institute for Space Studies (GISS), similar to Pioneer 10 and Pioneer 11 imaging photopolarimeter (IPP). The principal investigator was J. Hansen, later succeeded by L. Travis. The instrument had a mass of 5 kilograms and consumed 5.4 watts of power.

The Orbiter Radar Mapper Instrument was designed to determine the topography and surface characteristics of Venus. It was a radar system developed by the Massachusetts Institute of Technology (MIT), with G. Pettengill serving as the principal investigator. Weighing 9 kilograms and consuming 18 watts, the instrument operated when the spacecraft was within 4,700 kilometres (2,900 mi) of the planet. It transmitted a 20-watt S-band signal at 1.757 Gigahertz and achieved a surface mapping resolution of 23 by 7 kilometres (14.3 mi × 4.3 mi) at periapsis.

The Orbiter Infrared Radiometer was used to measure infrared emissions from Venus' atmosphere. It was constructed by the Jet Propulsion Laboratory (JPL), and the principal investigator was F. Taylor. The instrument had a mass of 5.9 kilograms and required 5.2 watts of power.

The Orbiter Ultraviolet Spectrometer measured scattered and emitted ultraviolet light from Venus. Built by the Laboratory for Atmospheric and Space Physics (LASP), its principal investigator was A.I.F. Stewart. The spectrometer weighed 3.1 kilograms and consumed 1.7 watts of power.

The Orbiter Neutral Mass Spectrometer was used to determine the composition of Venus's upper atmosphere. Manufactured by the Goddard Space Flight Center (GSFC), it was managed by principal investigator H. Neimann. The instrument had a mass of 3.8 kilograms and consumed 12 watts.

The Orbiter Plasma Analyzer measured properties of the solar wind. Developed at the Ames Research Center (ARC), the instrument was led by principal investigator J. Wolfe, who was later succeeded by A. Barnes. It had a mass of 3.9 kilograms and required 5 watts of power.

The Orbiter Magnetometer was designed to characterize Venus’s magnetic field. It was built by the University of California, Los Angeles (UCLA), with C. Russell as the principal investigator. The 2-kilogram instrument consumed 2.2 watts of power and was mounted on a 4.7-meter boom to reduce spacecraft interference.

The Orbiter Electric Field Detector studied electric fields in the Venusian environment. Built by TRW and led by principal investigator F. Scarf, it had a mass of 0.8 kilograms and used only 0.7 watts of power.

The Orbiter Electron Temperature Probe investigated the thermal properties of Venus’s ionosphere. It was developed by the Goddard Space Flight Center (GSFC) under the direction of principal investigator L. Brace. The probe had a mass of 2.2 kilograms and consumed 4.8 watts.

The Orbiter Ion Mass Spectrometer was used to characterize the ion population in the ionosphere of Venus. Built by the Goddard Space Flight Center (GSFC), it was managed by principal investigator H. Taylor. The instrument had a mass of 3 kilograms and required 1.5 watts of power.

The Orbiter Retarding Potential Analyzer studied ionospheric particles. It was developed at the Lockheed Palo Alto Research Laboratory (LPARL), with W. Knudsen as the principal investigator. This instrument weighed 2.8 kilograms and consumed 2.4 watts of power.

The Orbiter Gamma-Ray Burst Detector recorded gamma-ray burst events. It was constructed by the Los Alamos Scientific Laboratory (LASL), and W. Evans served as the principal investigator. The instrument had a mass of 2.8 kilograms.

The orbiter also performed in situ radio science experiments:^[6]

The OGPE utilized dual-frequency radio signals to investigate how Venus's atmosphere affects radio wave propagation. By analyzing signal attenuation and phase shifts, the experiment aimed to deduce atmospheric properties such as electron density and refractive index. This information is crucial for understanding the structure and composition of Venus's ionosphere.^[7][8] T. Croft from SRI was the principal investigator.

The OAD measured the deceleration of the spacecraft due to atmospheric drag at the fringes of Venus's atmosphere. By tracking changes in the spacecraft's velocity, the experiment provided data on atmospheric density and its variations with altitude and solar activity. G. Keating from LRC was the principal investigator.

DLBI, also known as delta-VLBI, involved simultaneous observations of the spacecraft's radio signals by widely separated Earth-based antennas. By measuring the time difference in signal arrival, the experiment achieved precise spacecraft positioning, enhancing orbit determination and navigation accuracy.

OTUR focused on detecting and analyzing turbulence in Venus's upper atmosphere and the solar wind. By examining fluctuations in radio signal properties, the experiment aimed to understand the dynamic interactions between the solar wind and Venus's ionosphere. T. Croft from SRI was the principal investigator.

The ORO experiment employed radio occultation techniques, where the spacecraft's radio signals passed through Venus's atmosphere to Earth. By analyzing changes in signal frequency and amplitude, the experiment derived vertical profiles of atmospheric temperature, pressure, and electron density. A. Kliore from JPL was the principal investigator.

OIDD aimed to map Venus's gravitational field by tracking the spacecraft's orbit perturbations. Variations in gravity indicated differences in mass distribution within the planet, providing insights into its internal structure and composition.^[9] R. Phillips from JPL was the principal investigator.

The OCM focused on precise measurements of the spacecraft's trajectory to study Venus's gravitational field and test aspects of celestial mechanics. Data from this experiment contributed to refining models of planetary motion and gravitational interactions. I. Shapiro from MIT was the principal investigator

Note: LASP: Laboratory for Atmospheric and Space Physics (University of Boulder, Colorado); UCLA: University of California in Los Angeles; JPL: Jet Propulsion Laboratory; MIT: Massachusetts Institute of Technology; GSFC: Goddard Space Flight Center GISS: Goddard Institute for Space Studies; LRC: Langley Research Center; ARC: Ames Research Center; LASL: Los Alamos National Laboratory; SRI: Stanford Research Institute

The Pioneer Venus Orbiter was launched by an Atlas SLV-3D Centaur-D1AR rocket, which flew from Launch Complex 36A at the Cape Canaveral Air Force Station. The launch occurred at 13:13:00 (8:13 a.m. local time) on May 20, 1978, and deployed the Orbiter into heliocentric orbit for its coast to Venus. Venus orbit insertion occurred on December 4, 1978.

• 
  Launch of Pioneer Venus Orbiter with Atlas-Centaur rocket
• 
  Trajectory of Pioneer Venus Orbiter
• 
  Orbit of Pioneer Venus Orbiter

From Venus orbit insertion to July 1980, periapsis was held between 142 and 253 kilometres (88 and 157 mi) (at 17 degrees north latitude) to facilitate radar and ionospheric measurements. The spacecraft was in a 24-hour orbit with an apoapsis of 66,900 kilometers (41,600 mi). Thereafter, the periapsis was allowed to rise to a maximum of 2,290 kilometres (1,420 mi) and then fall, to conserve fuel.

In 1991, the Radar Mapper was reactivated to investigate previously inaccessible southern portions of the planet, in conjunction with the recently arrived Magellan spacecraft. In May 1992, Pioneer Venus began the final phase of its mission, in which the periapsis was held between 150 and 250 kilometres (93 and 155 mi), until the spacecraft's propellant was exhausted, after which the orbit decayed naturally. The spacecraft continued to return data until 8 October 1992, with the last signals being received at 19:22 UTC.^[4] The Pioneer Venus Orbiter disintegrated upon entering the atmosphere of Venus on October 22, 1992.^[2]

• 
  Venus by Pioneer Venus Orbiter (13 December 1978)
• 
  Venus in ultraviolet light by Pioneer Venus Orbiter (5 February 1979)
• 
  Venus in ultraviolet light by Pioneer Venus Orbiter (February 26, 1979)
• 
  Map of Venus produced from Pioneer Venus Orbiter radar data
• 
  Perspective view of Ishtar Terra was derived from data obtained by the Pioneer Venus spacecraft's altimetry radar instrument

From its orbit of Venus, the Pioneer Venus Orbiter was able to observe Halley's Comet when it was unobservable from Earth due to its proximity to the sun during February 1986. UV spectrometer observations monitored the loss of water from the comet's nucleus at perihelion on February 9.^[11]

The extended mission allowed the spacecraft controllers to make several comet observations that were never part of the original mission objectives. The tilt of the spacecraft was altered during these comet observations so that the Ultraviolet Spectrometer (OUVS) could view the comets rather than Venus. Comets Encke (April 13–16, 1984), Giacobini-Zinner (September 8–15, 1985), Halley (December 27, 1985 - March 9, 1986), Wilson (March 13 - May 2, 1987), NTT (April 8, 1987), and McNaught (November 19–24, 1987) were all observed in this way.^[10]

• 
  Orbit attitude of Pioneer Venus 1 between 1978–1980 and 1992
• 
  Comet Halley, UV Hydrogen emission (reddish circular band) by Pioneer Venus Orbiter
• 
  Comet Halley by Pioneer Venus Orbiter on February 11, 1986
• 
  Comet Wilson by Pioneer Venus Orbiter

• Pioneer Venus Multiprobe
• List of missions to Venus
• Timeline of artificial satellites and space probes

• Donahue, T. M. (6 July 1979). "Pioneer Venus Results: An Overview". Science. 205 (4401): 41–44. Bibcode:1979Sci...205...41D. doi:10.1126/science.205.4401.41. JSTOR 1748508. PMID 17778895. S2CID 1600807.
• Colin, Lawrence (6 July 1979). "Encounter with Venus: An Update". Science. 205 (4401): 44–46. Bibcode:1979Sci...205...44C. doi:10.1126/science.205.4401.44. JSTOR 1748509. PMID 17778896. S2CID 26297893.
• Seiff, Alvin; Kirk, Donn B.; Young, Richard E.; Sommer, Simon C.; Blanchard, Robert C.; Findlay, John T.; Kelly, G. M. (6 July 1979). "Thermal Contrast in the Atmosphere of Venus: Initial Appraisal from Pioneer Venus Probe Data". Science. 205 (4401): 46–49. Bibcode:1979Sci...205...46S. doi:10.1126/science.205.4401.46. JSTOR 1748510. PMID 17778897. S2CID 24774892.
• Hoffman, J. H.; Hodges, R. R.; McElroy, M. B.; Donahue, T. M.; Kolpin, M. (6 July 1979). "Composition and Structure of the Venus Atmosphere: Results from Pioneer Venus". Science. 205 (4401): 49–52. Bibcode:1979Sci...205...49H. doi:10.1126/science.205.4401.49. JSTOR 1748511. PMID 17778898. S2CID 20713222.
• Oyama, V. I.; Carle, G. C.; Woeller, F.; Pollack, J. B. (6 July 1979). "Laboratory Corroboration of the Pioneer Venus Gas Chromatograph Analyses". Science. 205 (4401): 52–54. Bibcode:1979Sci...205...52O. doi:10.1126/science.205.4401.52. JSTOR 1748512. PMID 17778899. S2CID 40293580.
• Niemann, H. B.; Hartle, R. E.; Hedin, A. E.; Kasprzak, W. T.; Spencer, N. W.; Hunten, D. M.; Carignan, G. R. (6 July 1979). "Venus Upper Atmosphere Neutral Gas Composition: First Observations of the Diurnal Variations". Science. 205 (4401): 54–56. Bibcode:1979Sci...205...54N. doi:10.1126/science.205.4401.54. JSTOR 1748513. PMID 17778900. S2CID 21839920.
• Pollack, James B.; Black, David C. (6 July 1979). "Implications of the Gas Compositional Measurements of Pioneer Venus for the Origin of Planetary Atmospheres". Science. 205 (4401): 56–59. Bibcode:1979Sci...205...56P. doi:10.1126/science.205.4401.56. JSTOR 1748514. PMID 17778901. S2CID 13281057.
• Stewart, A. Ian; Barth, Charles A. (6 July 1979). "Ultraviolet Night Airglow of Venus". Science. 205 (4401): 59–62. Bibcode:1979Sci...205...59S. doi:10.1126/science.205.4401.59. JSTOR 1748515. PMID 17778902. S2CID 12841902.
• Keating, G. M.; Taylor, F. W.; Nicholson, J. Y.; Hinson, E. W. (6 July 1979). "Short-Term Cyclic Variations and Diurnal Variations of the Venus Upper Atmosphere". Science. 205 (4401): 62–64. Bibcode:1979Sci...205...62K. doi:10.1126/science.205.4401.62. JSTOR 1748516. PMID 17778903. S2CID 23057356.
• Taylor, F. W.; Diner, D. J.; Elson, L. S.; McCleese, D. J.; Martonchik, J. V.; Delderfield, J.; Bradley, S. P.; Schofield, J. T.; Gille, J. C.; Coffey, M. T. (6 July 1979). "Temperature, Cloud Structure, and Dynamics of Venus Middle Atmosphere by Infrared Remote Sensing from Pioneer Orbiter". Science. 205 (4401): 65–67. Bibcode:1979Sci...205...65T. doi:10.1126/science.205.4401.65. JSTOR 1748517. PMID 17778904. S2CID 2023608.
• Blamont, Jacques; Ragent, Boris (6 July 1979). "Further Results of the Pioneer Venus Nephelometer Experiment". Science. 205 (4401): 67–70. Bibcode:1979Sci...205...67B. doi:10.1126/science.205.4401.67. JSTOR 1748518. PMID 17778905. S2CID 19155512.
• Knollenberg, Robert G.; Hunten, D. M. (6 July 1979). "Clouds of Venus: A Preliminary Assessment of Microstructure". Science. 205 (4401): 70–74. Bibcode:1979Sci...205...70K. doi:10.1126/science.205.4401.70. JSTOR 1748519. PMID 17778906. S2CID 36125836.
• Travis, L. D.; Coffeen, D. L.; Del Genio, A. D.; Hansen, J. E.; Kawabata, K.; Lacis, A. A.; Lane, W. A.; Limaye, S. S.; Rossow, W. B.; Stone, P. H. (6 July 1979). "Cloud Images from the Pioneer Venus Orbiter". Science. 205 (4401): 74–76. Bibcode:1979Sci...205...74T. doi:10.1126/science.205.4401.74. JSTOR 1748520. PMID 17778907. S2CID 43906539.
• Pollack, James B.; Ragent, Boris; Boese, Robert; Tomasko, Martin G.; Blamont, Jacques; Knollenberg, Robert G.; Esposito, Larry W.; Stewart, A. Ian; Travis, Lawrence (6 July 1979). "Nature of the Ultraviolet Absorber in the Venus Clouds: Inferences Based on Pioneer Venus Data". Science. 205 (4401): 76–79. Bibcode:1979Sci...205...76P. doi:10.1126/science.205.4401.76. JSTOR 1748521. PMID 17778908. S2CID 28250903.
• Tomasko, Martin G.; Doose, Lyn R.; Smith, Peter H. (6 July 1979). "Absorption of Sunlight in the Atmosphere of Venus". Science. 205 (4401): 80–82. Bibcode:1979Sci...205...80T. doi:10.1126/science.205.4401.80. hdl:2060/19830010359. JSTOR 1748522. PMID 17778909. S2CID 35649934.
• Suomi, V. E.; Sromovsky, L. A.; Revercomb, H. E. (6 July 1979). "Preliminary Results of the Pioneer Venus Small Probe Net Flux Radiometer Experiment". Science. 205 (4401): 82–85. Bibcode:1979Sci...205...82S. doi:10.1126/science.205.4401.82. JSTOR 1748523. PMID 17778910. S2CID 22181310.
• Counselman, C. C.; Gourevitch, S. A.; King, R. W.; Loriot, G. B.; Prinn, R. G. (6 July 1979). "Venus Winds Are Zonal and Retrograde Below the Clouds". Science. 205 (4401): 85–87. Bibcode:1979Sci...205...85C. doi:10.1126/science.205.4401.85. JSTOR 1748524. PMID 17778911. S2CID 39737494.
• Woo, Richard; Armstrong, J. W.; Kendall, William B. (6 July 1979). "Measurements of Turbulence in the Venus Atmosphere Deduced from Pioneer Venus Multiprobe Radio Scintillations". Science. 205 (4401): 87–89. Bibcode:1979Sci...205...87W. doi:10.1126/science.205.4401.87. JSTOR 1748525. PMID 17778912. S2CID 10233431.
• Pettengill, Gordon H.; Ford, Peter G.; Brown, Walter E.; Kaula, William M.; Masursky, Harold; Eliason, Eric; McGill, George E. (6 July 1979). "Venus: Preliminary Topographic and Surface Imaging Results from the Pioneer Orbiter". Science. 205 (4401): 90–93. Bibcode:1979Sci...205...90P. doi:10.1126/science.205.4401.90. JSTOR 1748526. PMID 17778913. S2CID 12582229.
• Phillips, Roger J.; Sjogren, William L.; Abbott, Elsa A.; Smith, John C.; Wimberly, Ray N.; Wagner, Cari A. (6 July 1979). "Gravity Field of Venus: A Preliminary Analysis". Science. 205 (4401): 93–96. Bibcode:1979Sci...205...93P. doi:10.1126/science.205.4401.93. JSTOR 1748527. PMID 17778914. S2CID 21557337.
• Taylor, Harry A.; Brinton, Henry C.; Bauer, Siegfried J.; Hartle, Richard E.; Cloutier, Paul A.; Daniell, Robert E.; Donahue, Thomas M. (6 July 1979). "Ionosphere of Venus: First Observations of Day-Night Variations of the Ion Composition". Science. 205 (4401): 96–99. Bibcode:1979Sci...205...96T. doi:10.1126/science.205.4401.96. JSTOR 1748528. PMID 17778915. S2CID 11269827.
• Kliore, A. J.; Patel, I. R.; Nagy, A. F.; Cravens, T. E.; Gombosi, T. I. (6 July 1979). "Initial Observations of the Nightside Ionosphere of Venus from Pioneer Venus Orbiter Radio Occultations". Science. 205 (4401): 99–102. Bibcode:1979Sci...205...99K. doi:10.1126/science.205.4401.99. JSTOR 1748529. PMID 17778916. S2CID 10322619.
• Brace, L. H.; Theis, R. F.; Niemann, H. B.; Mayr, H. G.; Hoegy, W. R.; Nagy, A. F. (6 July 1979). "Empirical Models of the Electron Temperature and Density in the Nightside Venus Ionosphere". Science. 205 (4401): 102–105. Bibcode:1979Sci...205..102B. doi:10.1126/science.205.4401.102. JSTOR 1748530. PMID 17778917. S2CID 25337442.
• Knudsen, W. C.; Spenner, K.; Whitten, R. C.; Spreiter, J. R.; Miller, K. L.; Novak, V. (6 July 1979). "Thermal Structure and Energy Influx to the Day- and Nightside Venus Ionosphere". Science. 205 (4401): 105–107. Bibcode:1979Sci...205..105K. doi:10.1126/science.205.4401.105. JSTOR 1748531. PMID 17778918. S2CID 26084728.
• Nagy, A. F.; Cravens, T. E.; Chen, R. H.; Taylor, H. A.; Brace, L. H.; Brinton, H. C. (6 July 1979). "Comparison of Calculated and Measured Ion Densities on the Dayside of Venus". Science. 205 (4401): 107–109. Bibcode:1979Sci...205..107N. doi:10.1126/science.205.4401.107. JSTOR 1748532. PMID 17778919. S2CID 28832064.
• Bauer, Siegfried J.; Donahue, Thomas M.; Hartle, Richard E.; Taylor, Harry A. (6 July 1979). "Venus Ionosphere: Photochemical and Thermal Diffusion Control of Ion Composition". Science. 205 (4401): 109–112. Bibcode:1979Sci...205..109B. doi:10.1126/science.205.4401.109. JSTOR 1748533. PMID 17778920. S2CID 32579568.
• Taylor, W. W. L.; Scarf, F. L.; Russell, C. T.; Brace, L. H. (6 July 1979). "Absorption of Whistler Mode Waves in the Ionosphere of Venus". Science. 205 (4401): 112–114. Bibcode:1979Sci...205..112T. doi:10.1126/science.205.4401.112. JSTOR 1748534. PMID 17778921. S2CID 45428203.
• Russell, C. T.; Elphic, R. C.; Slavin, J. A. (6 July 1979). "Initial Pioneer Venus Magnetic Field Results: Nightside Observations". Science. 205 (4401): 114–116. Bibcode:1979Sci...205..114R. doi:10.1126/science.205.4401.114. JSTOR 1748535. PMID 17778922. S2CID 24494352.
• Intriligator, D. S.; Collard, H. R.; Mihalov, J. D.; Whitten, R. C.; Wolfe, J. H. (6 July 1979). "Electron Observations and Ion Flows from the Pioneer Venus Orbiter Plasma Analyzer Experiment". Science. 205 (4401): 116–119. Bibcode:1979Sci...205..116I. doi:10.1126/science.205.4401.116. JSTOR 1748536. PMID 17778923. S2CID 42935022.
• Evans, W. D.; Glore, J. P.; Klebesadel, R. W.; Laros, J. G.; Tech, E. R.; Spalding, R. E. (6 July 1979). "Gamma-Ray Burst Observations by Pioneer Venus Orbiter". Science. 205 (4401): 119–121. Bibcode:1979Sci...205..119E. doi:10.1126/science.205.4401.119. JSTOR 1748537. PMID 17778924. S2CID 38916824.
• Donahue, T. M. (6 July 1979). "Pioneer Venus Results: An Overview". Science. 205 (4401): 41–44. Bibcode:1979Sci...205...41D. doi:10.1126/science.205.4401.41. JSTOR 1748508. PMID 17778895. S2CID 1600807.
• Colin, Lawrence (6 July 1979). "Encounter with Venus: An Update". Science. 205 (4401): 44–46. Bibcode:1979Sci...205...44C. doi:10.1126/science.205.4401.44. JSTOR 1748509. PMID 17778896. S2CID 26297893.
• Seiff, Alvin; Kirk, Donn B.; Young, Richard E.; Sommer, Simon C.; Blanchard, Robert C.; Findlay, John T.; Kelly, G. M. (6 July 1979). "Thermal Contrast in the Atmosphere of Venus: Initial Appraisal from Pioneer Venus Probe Data". Science. 205 (4401): 46–49. Bibcode:1979Sci...205...46S. doi:10.1126/science.205.4401.46. JSTOR 1748510. PMID 17778897. S2CID 24774892.
• Hoffman, J. H.; Hodges, R. R.; McElroy, M. B.; Donahue, T. M.; Kolpin, M. (6 July 1979). "Composition and Structure of the Venus Atmosphere: Results from Pioneer Venus". Science. 205 (4401): 49–52. Bibcode:1979Sci...205...49H. doi:10.1126/science.205.4401.49. JSTOR 1748511. PMID 17778898. S2CID 20713222.
• Oyama, V. I.; Carle, G. C.; Woeller, F.; Pollack, J. B. (6 July 1979). "Laboratory Corroboration of the Pioneer Venus Gas Chromatograph Analyses". Science. 205 (4401): 52–54. Bibcode:1979Sci...205...52O. doi:10.1126/science.205.4401.52. JSTOR 1748512. PMID 17778899. S2CID 40293580.
• Niemann, H. B.; Hartle, R. E.; Hedin, A. E.; Kasprzak, W. T.; Spencer, N. W.; Hunten, D. M.; Carignan, G. R. (6 July 1979). "Venus Upper Atmosphere Neutral Gas Composition: First Observations of the Diurnal Variations". Science. 205 (4401): 54–56. Bibcode:1979Sci...205...54N. doi:10.1126/science.205.4401.54. JSTOR 1748513. PMID 17778900. S2CID 21839920.
• Pollack, James B.; Black, David C. (6 July 1979). "Implications of the Gas Compositional Measurements of Pioneer Venus for the Origin of Planetary Atmospheres". Science. 205 (4401): 56–59. Bibcode:1979Sci...205...56P. doi:10.1126/science.205.4401.56. JSTOR 1748514. PMID 17778901. S2CID 13281057.
• Stewart, A. Ian; Barth, Charles A. (6 July 1979). "Ultraviolet Night Airglow of Venus". Science. 205 (4401): 59–62. Bibcode:1979Sci...205...59S. doi:10.1126/science.205.4401.59. JSTOR 1748515. PMID 17778902. S2CID 12841902.
• Keating, G. M.; Taylor, F. W.; Nicholson, J. Y.; Hinson, E. W. (6 July 1979). "Short-Term Cyclic Variations and Diurnal Variations of the Venus Upper Atmosphere". Science. 205 (4401): 62–64. Bibcode:1979Sci...205...62K. doi:10.1126/science.205.4401.62. JSTOR 1748516. PMID 17778903. S2CID 23057356.
• Taylor, F. W.; Diner, D. J.; Elson, L. S.; McCleese, D. J.; Martonchik, J. V.; Delderfield, J.; Bradley, S. P.; Schofield, J. T.; Gille, J. C.; Coffey, M. T. (6 July 1979). "Temperature, Cloud Structure, and Dynamics of Venus Middle Atmosphere by Infrared Remote Sensing from Pioneer Orbiter". Science. 205 (4401): 65–67. Bibcode:1979Sci...205...65T. doi:10.1126/science.205.4401.65. JSTOR 1748517. PMID 17778904. S2CID 2023608.
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Wikimedia Commons has media related to Pioneer Venus 1.

• NASA: Pioneer Venus Project Information
• Pioneer Venus Program Page by NASA's Solar System Exploration
• Kasprzak, W. T – The Pioneer Venus Orbiter: 11 years of data. (May 1, 1990) – NASA