Russell-Ocampo cycler 9.94Gg3 (high-energy 3-synodic, shortest transit)
russell-ch4-9.94Gg3 · source: literature ·
validation: V1
Signature
- Bodies
- E-M
- Primary
- Sun (default — heliocentric)
- Sequence (canonical)
E-E-E-M-M- Sense
- outbound
- Orbit class
- Cycler strict cycler (infinite returns)
- Cycler class
- multi-arc
- Trajectory regime
- ballistic
- Maintenance ΔV band
- unclassified
- Model assumption
- circular-coplanar Idealised: planets on circles, coplanar ecliptic.
- Period
- 6.410 yr (3 × E-M synodic)
- Maintenance ΔV
- 0 km/s — strict ballistic
- Priority date
- 2003-02-09
V∞ at encounters
- E (encounter 1)
- 9.94 km/s Russell 2004 Table 4.11 row 5442: v_inf E = 9.94 km/s.
- M (encounter 2)
- 10.76 km/s Russell 2004 Table 4.11: v_inf M = 10.76 km/s.
Cycle-level identity (multi-arc invariants)
- Aphelion ratio (AR)
- —
- Turn ratio (TR)
- 1.10
- Transit times (days)
- 82 d, 82 d
Russell 2004 Table 4.11: aphel = 2.22 AU.
Orbit view 2.5D ecliptic projection
3D view not available for multi-arc trajectories yet. The 3D system can now render a numerically-sampled polyline (n-body or multi-arc), but no sampled trajectory is published for this row — each leg is a separate ellipse with honest gaps where elements are unpublished (the 2D view above shows them). The button will appear here once a sampled path is exported for this trajectory; we never interpolate one from the catalogue's per-leg (a, e).
Real DE440 encounter dates (1)
Real, verifiable JPL DE440 geometric-match dates (see Launch windows). Positions on the map are idealized; these are the true dates.
Legs (trajectory segments)
Free-return arcs (Russell decomposition)
Russell's Earth-to-Earth free-return arcs (spec §16.7.7) — a decomposition distinct from the encounter legs above. A single arc spans what the catalogue models as two or more encounter segments.
| Arc type | Resonance | TOF (yr) | Raw descriptor |
|---|---|---|---|
| generic | — | 1.7025 | G(1.7025,252.9,U) |
| generic | — | 4.7037 | g(4.7037,2053.31,Ls) |
Definition status
incomplete — core fields missing or known-unknowns tracked below
Family: Russell 3-synodic Earth-Mars ballistic · Russell-Ocampo cycler code
Known-unknowns (3)
Values we expect to exist but have not yet filled (distinct from "not applicable"). Tracked per upstream docs/spec.md §16.6.4.
Primary citation
Russell, R. P. & Ocampo, C. A. (2003). Global Search and Optimization for Free-Return Earth-Mars Cyclers. AAS Paper 03-145.
orbit source Russell 2004, Tables 4.9 / 4.13 orbit fidelity circular-coplanar V∞ source Russell 2004, Tables 4.9 / 4.13 V∞ fidelity circular-coplanar
Corroborating sources
- Russell, R. P. (2004). Global Search and Optimization for Free-Return Earth-Mars Cyclers. PhD dissertation, UT Austin. · link Dissertation line 5528: 'Cycler 9.94Gg has extremely short transit times of 82 days and is just two legs.' TR = 1.10.
Notes
The shortest E-M transit time in the entire Russell catalogue of ballistic three-synodic period cyclers. The high V_inf at Earth (9.94 km/s) makes launch C3 prohibitive but the 82-day transit is attractive for crewed-mission radiation-exposure minimisation. Leg descriptor: G(1.7025,252.9,U) g(4.7037,2053.31,Ls) — two generic returns.
Source quotes (per-field provenance)
Every numerical value in this entry traces to a verbatim or paraphrased quote from a cited source.
delta_v_kmsDerived from Russell 2004's tabulated AR / TR via the M2 powered-flyby surrogate (src/cyclerfinder/core/flyby.py): ΔV ≈ (V∞_E + V∞_M) × max(0, 1 − TR) + (1 − AR) × (V∞_E + V∞_M) × 0.025 [AR-correction term active only when AR < 1]. Upper bound; biases near-ballistic entries toward 'requires nudge'. Strict-ballistic rows (AR ≥ 1 AND TR ≥ 1) give ΔV = 0 exactly. AR/TR primary values: Russell 2004 Table 4.11 (last row 9.94 Gg): aphel=2.22 AU, TR=1.10, v∞E=9.94, v∞M=10.76.
vinf_kms_at_encounters[0].vinf_kmsRussell 2004 Table 4.11 row 5442: v_inf E = 9.94.
vinf_kms_at_encounters[1].vinf_kmsRussell 2004 Table 4.11: v_inf M = 10.76.
legs[0].tof_daysRussell 2004 Table 4.11: t_out = 82.
orbit_elements.aphelion_auRussell 2004 Table 4.11: aphel = 2.22 AU.
nameRussell 2004 dissertation line 5528: "Cycler 9.94Gg has extremely short transit times of 82 days and is just two legs."