| Trip Distance light years | Proper Time years | Travel Time years | Destination |
| 4.22 | 3.54 | 5.86 | Proxima Centauri |
| 4.39 | 3.60 | 6.04 | Alpha Centauri B |
| 5.94 | 4.04 | 7.65 | Barnard's Star |
| 8.31 | 4.56 | 10.08 | Lalande 21185 |
| 8.60 | 4.62 | 10.37 | Sirius |
| 9.69 | 4.81 | 11.48 | Ross 154 |
| 10.49 | 4.94 | 12.30 | Epsilon Eridani |
| 10.73 | 4.98 | 12.54 | Lacaille 9352 |
| 10.88 | 5.00 | 12.70 | Ross 128 |
| 11.35 | 5.07 | 13.17 | 61 Cygni A |
| 11.40 | 5.08 | 13.22 | Procyon |
| 11.42 | 5.08 | 13.24 | 61 Cygni B |
| 11.46 | 5.09 | 13.28 | BD +59 1915 A |
| 11.63 | 5.11 | 13.45 | Groombridge 34 |
| 11.82 | 5.14 | 13.65 | Epsilon Indi |
| 11.89 | 5.15 | 13.72 | Tau Ceti |
| 12.12 | 5.18 | 13.95 | HIP 5643 |
| 12.38 | 5.22 | 14.22 | Luyten's Star |
The travel times assume constant acceleration to the halfway point, then constant deceleration. "Proper Time" is what a traveler on the spacecraft experiences. "Travel Time" is what an external viewer experiences.