| Year | Date | Event | Distance from Sun (Gm)a | Speed (km/s) | Orbital period (days) | Notes |
|---|---|---|---|---|---|---|
| Flyby altitude over Venusb | Leg of Parker's orbitc | Inside/Outside orbit of Venusd | ||||
| 2018 | Aug 12 07:31 UTC | Launch | 151.6 | – | 174e | |
| Oct 3 08:44 UTC | Venus flyby #1 | 2548 kmf | Inbound | Inside | Flybys 1 and 2 occur at the same point in Venus's orbit | |
| Nov 6 03:27 UTC | Perihelion #1 | 24.8g | 95 | 150 | Solar encounter phase Oct. 31 - Nov. 11[4] | |
| 2019 | Apr 4 | Perihelion #2 | 24.8 | 95 | 150 | |
| Sep 1 | Perihelion #3 | 24.8 | 95 | 150 | ||
| Dec 26 | Venus flyby #2 | 3023 km | Inbound | Inside | Flybys 1 and 2 occur at the same point in Venus's orbit | |
| 2020 | Jan 29 | Perihelion #4 | 19.4 | 109 | 130 | |
| Jun 7 | Perihelion #5 | 19.4 | 109 | 130 | ||
| Jul 11 | Venus flyby #3 | 834 km | Outbound | Outside | Flybys 3 and 4 occur at the same point in Venus's orbit | |
| Sep 27 | Perihelion #6 | 14.2 | 129 | 112.5 | ||
| 2021 | Jan 17 | Perihelion #7 | 14.2 | 129 | 112.5 | |
| Feb 20 | Venus flyby #4 | 2392 km | Outbound | Outside | Flybys 3 and 4 occur at the same point in Venus's orbit | |
| Apr 29 | Perihelion #8 | 11.1 | 147 | 102 | ||
| Aug 9 | Perihelion #9 | 11.1 | 147 | 102 | ||
| Oct 16 | Venus flyby #5 | 3786 km | Inbound | Inside | Flybys 5 and 6 occur at the same point in Venus's orbit | |
| Nov 21 | Perihelion #10 | 9.2 | 163 | 96 | ||
| 2022 | Feb 25 | Perihelion #11 | 9.2 | 163 | 96 | |
| Jun 1 | Perihelion #12 | 9.2 | 163 | 96 | ||
| Sep 6 | Perihelion #13 | 9.2 | 163 | 96 | ||
| Dec 11 | Perihelion #14 | 9.2 | 163 | 96 | ||
| 2023 | Mar 17 | Perihelion #15 | 9.2 | 163 | 96 | |
| Jun 22 | Perihelion #16 | 9.2 | 163 | 96 | ||
| Aug 21 | Venus flyby #6 | 3939 km | Inbound | Inside | Flybys 5 and 6 occur at the same point in Venus's orbit | |
| Sep 27 | Perihelion #17 | 7.9 | 176 | 92 | ||
| Dec 29 | Perihelion #18 | 7.9 | 176 | 92 | ||
| 2024 | Mar 30 | Perihelion #19 | 7.9 | 176 | 92 | |
| Jun 30 | Perihelion #20 | 7.9 | 176 | 92 | ||
| Sep 30 | Perihelion #21 | 7.9 | 176 | 92 | ||
| Nov 6 | Venus flyby #7 | 317 km | Outbound | Outside | ||
| Dec 24 | Perihelion #22 | 6.9 | 192 | 88 | ||
| 2025 | Mar 22 | Perihelion #23 | 6.9 | 192 | 88 | |
| Jun 19 | Perihelion #24 | 6.9 | 192 | 88 | ||
| Sep 15 | Perihelion #25 | 6.9 | 192 | 88 | ||
| Dec 12 | Perihelion #26 | 6.9 | 192 | 88 |
^a The perihelion distances above are from the center of the Sun. For altitude above the surface, subtract one solar radius ≈ 0.7 Gm.
^b Details on Venus flybys from Guo et al.[5]: 6
^c Inbound indicates that the Venus flyby will take place after Parker's aphelion (in the case of the first flyby, after its launch), on its way to perihelion. Outbound indicates that the Venus flyby will take place after Parker's perihelion, on its way to aphelion.
^d Inside indicates that the probe will pass in between Venus and the Sun. Outside indicates that the probe will pass beyond Venus from the Sun; the probe will briefly pass through Venus's shadow in those instances.
^e The first orbital period of 174 days was the orbit established by the launch and course adjustments, and was the orbit the probe would have taken had nothing further happened to change it. That orbit was, per mission plan, never completed. On the probe's first inbound course towards the Sun, it made its first planned encounter with Venus, which shortened its orbit considerably.
^f The altitude is from the source cited,[5]: 6 dated 2014. 2548 km comes to 1583 mi. NASA's[6] and John's Hopkins's[7] press releases (identical), say "...came within about 1500 miles of Venus' surface ..." A NASA blog[8] says, "...completed its flyby of Venus at a distance of about 1,500 miles ..." Other news reports, presumably taking that information, also provide a figure of 2414 km. But neither the NASA/Hopkins press release nor the blog gives a figure in kilometers.
Both the NASA and Hopkins press releases say that the flyby reduced the speed of the Parker Solar Probe (relative to the Sun) by about 10 percent, or 7,000 mph. This altered the orbit, bringing perihelion about 4 million miles closer to the Sun than it would have been without the gravity assist.
^g By way of comparison, the planet Mercury orbits the Sun at a distance varying from about 46.0 Gm (46,001,200 km) at its closest to about 69.8 Gm (69,816,900 km) at its farthest.
- Reference below will appear as footnote 5, if and when this trial draft is inserted into the article.
Guo, Yanping; Ozimek, Martin; Mcadams, James; Shyong, Wen-Jong (May 2014). Solar Probe Plus Mission Design Overview and Mission Profile. International Symposium on Space Flight Dynamics, At Laurel, MD. ResearchGate.