Difference between revisions of "M-Drive"
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[[File: Wiki Navy.png|right]] | [[File: Wiki Navy.png|right]] | ||
The [[M-Drive]], or ''[[Maneuver Drive]]'', a {{TL|9}}+ [[Gravity Control Technology|gravity control]] based technology used as the standard [[Maneuver Drive]] in [[Starships]]. | The [[M-Drive]], or ''[[Maneuver Drive]]'', a {{TL|9}}+ [[Gravity Control Technology|gravity control]] based technology used as the standard [[Maneuver Drive]] in [[Starships]]. | ||
| − | * It is also known as a [[Thruster Plate]], and also (somewhat inaccurately) as a [[Reactionless Drive]] | + | * It is also known as a [[Thruster Plate]], and also (somewhat inaccurately) as a [[Reactionless Drive]] or [[Reactionless Thruster]] due to their design and their apparent mode of operation, though they are more correctly described as a ''propellantless field-drive'' as they do interact with and react against local gravitational fields and bodies via spacetime curvature. |
| − | * The term ''M-Drive'' refers specifically to the [[Thruster Plate]] [[Maneuver Drive]] system that reacts against the curvature of [[spacetime]] (i.e. gravity) that is in use at standard TL throughout [[Charted Space]], and should not be confused with the generic term "''[[Maneuver Drive]]''" that refers to [[Impulse Drive]]s and other [[Relativistic Drive]]s in general. | + | * The term ''"M-Drive"'' refers specifically to the [[Thruster Plate]] [[Maneuver Drive]] system that reacts against the curvature of [[spacetime]] (i.e. gravity) that is in use at standard TL throughout [[Charted Space]], and should not be confused with the generic term "''[[Maneuver Drive]]''" that refers to [[Impulse Drive]]s and other [[Relativistic Drive]]s in general. |
| + | |||
== Description ([[Specifications]]) == | == Description ([[Specifications]]) == | ||
| Line 12: | Line 13: | ||
Thruster plates work normally until the curvature of space reaches a threshold. Below that threshold, quantum-gravitic effects drastically cut the effectiveness, by a factor of a hundred or more. That cutoff level turns out to be around 1,000 Diameters (9.3 AU for the sun, within the orbit of Saturn. Red Dwarfs can have limits as small as 1 AU, and Blue Giants can have limits as large as 30 AU). Thus Thruster plate equipped ships can't maneuver effectively in deep space. Ships intended to routinely operate out beyond the cutoff are generally designed with some form of auxiliary propulsion ([[Fusion Drive]]s or [[HEPlaR]] are the most common),{{Page cite|name=Fire, Fusion & Steel|page=65}} or an alternative [[Deep Space Maneuver System]] (DSMS). | Thruster plates work normally until the curvature of space reaches a threshold. Below that threshold, quantum-gravitic effects drastically cut the effectiveness, by a factor of a hundred or more. That cutoff level turns out to be around 1,000 Diameters (9.3 AU for the sun, within the orbit of Saturn. Red Dwarfs can have limits as small as 1 AU, and Blue Giants can have limits as large as 30 AU). Thus Thruster plate equipped ships can't maneuver effectively in deep space. Ships intended to routinely operate out beyond the cutoff are generally designed with some form of auxiliary propulsion ([[Fusion Drive]]s or [[HEPlaR]] are the most common),{{Page cite|name=Fire, Fusion & Steel|page=65}} or an alternative [[Deep Space Maneuver System]] (DSMS). | ||
| + | |||
| + | === STL Drive Specifications === | ||
| + | :{| class="wikitable sortable" | ||
| + | |+ STL Drive Specifications ([[Starship]] Propulsion) | ||
| + | ! Category | ||
| + | ! Specifications | ||
| + | ! Remarks | ||
| + | |- valign="top" | ||
| + | | Name | ||
| + | | Impulse Field Thruster | ||
| + | | "Maneuver Thruster" | ||
| + | * "M-Drive" | ||
| + | |- valign="top" | ||
| + | | TL | ||
| + | | 12 | ||
| + | | Standard TL | ||
| + | |- valign="top" | ||
| + | | Drive Type | ||
| + | | Field Impulse Drive | ||
| + | | Propellantless | ||
| + | |- valign="top" | ||
| + | | Acceleration | ||
| + | | 1-9''g'' | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Duration | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Hazards | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Physical<br> Constraints | ||
| + | | 1000 diameter operational range | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Geometry | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Levels | ||
| + | | 1-9 | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Entry | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Exit | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Fuel | ||
| + | | Electrical power | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Resource<br> Requirements | ||
| + | | External Gra | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Inventor | ||
| + | | TBD | ||
| + | | TBD | ||
| + | |- valign="top" | ||
| + | | Characteristics | ||
| + | | Integral Inertial Dampers/Acceleration Compensation | ||
| + | | TBD | ||
| + | |- | ||
| + | |} | ||
| + | |||
== History & Background ([[Dossier]]) == | == History & Background ([[Dossier]]) == | ||
| Line 17: | Line 89: | ||
Power for the drives is provided by the ship's [[power plant]]. [[Technology level]] requirements for maneuver drives are imposed to cover the [[Gravity control technology|grav plates]] integral to most ship decks, and which allow high-G maneuvers while interior G-fields remain normal. | Power for the drives is provided by the ship's [[power plant]]. [[Technology level]] requirements for maneuver drives are imposed to cover the [[Gravity control technology|grav plates]] integral to most ship decks, and which allow high-G maneuvers while interior G-fields remain normal. | ||
| + | |||
<br> | <br> | ||
| Line 66: | Line 139: | ||
{{Intermediate}} | {{Intermediate}} | ||
{{Sources | {{Sources | ||
| − | |S1= {{Ludography cite|name= Referee's Manual|page=56}} | + | | S1= {{Ludography cite|name= Referee's Manual |page= 56}} |
| − | |S2= {{Ludography cite|name= Fire, Fusion, & Steel|page=72-73}} | + | | S2= {{Ludography cite|name= Fire, Fusion, & Steel |version= Traveller The New Era |page= 72-73}} |
| − | |S3= {{Ludography cite|name= Starships|version=Marc Miller's Traveller|page=71}} | + | | S3= {{Ludography cite|name= Starships|version= Marc Miller's Traveller |page=71}} |
| − | |S4= {{Ludography cite|name= Fire, Fusion & Steel|page=65}} | + | | S4= {{Ludography cite|name= Fire, Fusion & Steel |version= Marc Miller's Traveller |page=65}} |
| − | |S5= {{Ludography cite|name= T5 Core Rules|page=323-327}} | + | | S5= {{Ludography cite|name= Starship Operator's Manual |version= MegaTraveller |page= 2-4}} |
| − | | | + | | S6= {{Ludography cite|name= Starship Operator's Manual |version= Mongoose 2nd |page= }} |
| − | | | + | | S7= {{Ludography cite|name= T5 Core Rules |page=323-327}} |
| + | | S8= {{Ludography cite|name= Starships |version= Traveller 5th |page= 55-56, 63, 76-79, 100-109}} | ||
| + | | S9= [https://arxiv.org/pdf/2507.00084 ArXiv.org Facets of Brachistochronic Trajectories] | ||
| + | | S10= [https://transfercalculator.com/ Planetary Transfer Calculator] | ||
| + | | S11= [[Traveller Wiki Editorial Team]] | ||
| + | | S12= Author & Contributor: Lord (Marquis) and Master of Sophontology [[User:Maksim-Smelchak|Maksim-Smelchak]] of the [[Ministry of Science]] | ||
}} | }} | ||
[[Category: Ship Equipment]] | [[Category: Ship Equipment]] | ||
| − | {{LE|Propulsion|}} | + | {{LE|Propulsion|Drive}} |
Latest revision as of 01:35, 16 January 2026
The M-Drive, or Maneuver Drive, a TL–9+ gravity control based technology used as the standard Maneuver Drive in Starships.
- It is also known as a Thruster Plate, and also (somewhat inaccurately) as a Reactionless Drive or Reactionless Thruster due to their design and their apparent mode of operation, though they are more correctly described as a propellantless field-drive as they do interact with and react against local gravitational fields and bodies via spacetime curvature.
- The term "M-Drive" refers specifically to the Thruster Plate Maneuver Drive system that reacts against the curvature of spacetime (i.e. gravity) that is in use at standard TL throughout Charted Space, and should not be confused with the generic term "Maneuver Drive" that refers to Impulse Drives and other Relativistic Drives in general.
Description (Specifications)[edit]
The fourth significant development came from the search for a starship maneuver drive that did not lose efficiency when away from a strong gravity well. Artificial gravity and damper technology led to yet another sub-atomic force-based technology. This new, artificially generated force pushes against a vessel's "thrust plates" themselves, which make true reactionless thrusters a reality for starship sized vessels. [1]
The M-Drive use their own gravity field itself for propulsion, by "grabbing on" to the curvature of space and running along it much like an ant on the slope of a sugar-bowl. The M-Drive uses the stellar system itself as their reaction mass. [2]
Unlike the ant in the earlier example, however, the slope of the bowl has a different effect on the gravitic-drive ships. They depend upon the slope for propulsion. Beyond a certain point, quantum-gravitic effects drastically reduce the efficiency of a gravitic drive ship by a factor of a hundred or more, and thus they cannot maneuver effectively in deep space. [2]
Thruster plates work normally until the curvature of space reaches a threshold. Below that threshold, quantum-gravitic effects drastically cut the effectiveness, by a factor of a hundred or more. That cutoff level turns out to be around 1,000 Diameters (9.3 AU for the sun, within the orbit of Saturn. Red Dwarfs can have limits as small as 1 AU, and Blue Giants can have limits as large as 30 AU). Thus Thruster plate equipped ships can't maneuver effectively in deep space. Ships intended to routinely operate out beyond the cutoff are generally designed with some form of auxiliary propulsion (Fusion Drives or HEPlaR are the most common),[3] or an alternative Deep Space Maneuver System (DSMS).
STL Drive Specifications[edit]
STL Drive Specifications (Starship Propulsion) Category Specifications Remarks Name Impulse Field Thruster "Maneuver Thruster" - "M-Drive"
TL 12 Standard TL Drive Type Field Impulse Drive Propellantless Acceleration 1-9g TBD Duration TBD TBD Hazards TBD TBD Physical
Constraints1000 diameter operational range TBD Geometry TBD TBD Levels 1-9 TBD Entry TBD TBD Exit TBD TBD Fuel Electrical power TBD Resource
RequirementsExternal Gra TBD Inventor TBD TBD Characteristics Integral Inertial Dampers/Acceleration Compensation TBD
History & Background (Dossier)[edit]
The theoretical underpinnings of M-Drives involve the strength of gravitational fields from stars and worlds. The practical result is that In-System Drives operate within specific distances of stars and worlds, and are essentially unusable beyond those distances. [4]
Power for the drives is provided by the ship's power plant. Technology level requirements for maneuver drives are imposed to cover the grav plates integral to most ship decks, and which allow high-G maneuvers while interior G-fields remain normal.
Library Data Referral Tree[edit]
Please refer to the following AAB Library Data for more information:
Speed-of-Travel
- NAFAL (STL) - (Not As Fast As Light) / (Slower Than Light)
- Light Speed (c)
- FTL - (Faster Than Light) - "Superluminal"
Impulse-Drives
-
-
- (Field Propulsion Drives / Propellantless Drives)
- Z-Drive (Lifter / <1.0 D)
- G-Drive (Gravitic Drive / <10.0 D)
- M-Drive (Maneuver Drive/Thruster / <1000.0 D)
- N-Drive (NAFAL Drive / <1/8 ly)
- (Field Propulsion Drives / Propellantless Drives)
-
Interstellar-Drives (Advanced)
- N-Drive (NAFAL Drive / < 1/8 ly)
- Jump Space Drives
-
- J-Drive - Jump Drive (JD0: "0th" Order Jump Space Drive / > 100 D)
- H-Drive - Hop Drive (HD1: 1st Order Jump Space Drive / > 1000 D)
- S-Drive - Skip Drive (SD2: 2nd Order Jump Space Drive / > 10,000 D)
- L-Drive - Leap Drive (LD3: 3rd Order Jump Space Drive / > 100,000 D)
- B-Drive - Bound Drive (BD4: 4th Order Jump Space Drive / > 1,000,000 D)
- V-Drive - Vault Drive (VD5: 5th Order Jump Space Drive / > 10,000,000 D)
-
- D6-Drive - "Six Drive" (D6: 6th Order Jump Space Drive / > 100,000,000 D)
- D7-Drive - "Seven Drive" (D7: 7th Order Jump Space Drive / > 1,000,000,000 D)
- D8-Drive - "Eight Drive" (D8: 8th Order Jump Space Drive / > 10,000,000,000 D)
- D9-Drive - "Nine Drive" (D9: 9th Order Jump Space Drive / > 100,000,000,000 D)
-
- Conjectural Drives
-
- "Inertialess Drives":
- » Inertialess Drive ("IM -Drive")
- » Triplanetary Drive ("IT -Drive")
References & Contributors (Sources)[edit]
| This article has metadata. |
This list of sources was used by the Traveller Wiki Editorial Team and individual contributors to compose this article. Copyrighted material is used under license from Mongoose Publishing or by permission of the author. The page history lists all of the contributions.
- Marc Miller. Referee's Manual (Game Designers Workshop, 1987), 56.
- Frank Chadwick, Dave Nilsen. Fire, Fusion, & Steel (Game Designers Workshop, 1994), 72-73.
- Don Perrin. Starships (Imperium Games, 1996), 71.
- David Golden, Guy Garnett. Fire, Fusion & Steel (Imperium Games, 1997), 65.
- Rob Caswell, William W. Connors, Joe Fugate, Gary L. Thomas. Starship Operator's Manual (Digest Group Publications, 1988), 2-4.
- Adrian Tymes, Sabrina Tymes, Gabriel G. A. B. Fonseca, Robert Eaglestone. Starship Operator's Manual (Mongoose Publishing, 2024), .
- Marc Miller. T5 Core Rules (Far Future Enterprises, 2013), 323-327.
- Marc Miller, Robert Eaglestone, Don McKinney. Starships (Far Future Enterprises, 2019), 55-56, 63, 76-79, 100-109.
- ArXiv.org Facets of Brachistochronic Trajectories
- Planetary Transfer Calculator
- Traveller Wiki Editorial Team
- Author & Contributor: Lord (Marquis) and Master of Sophontology Maksim-Smelchak of the Ministry of Science
- ↑ Marc Miller. Referee's Manual (Game Designers Workshop, 1987), 56.
- ↑ 2.0 2.1 Don Perrin. Starships (Imperium Games, 1996), 71.
- ↑ David Golden, Guy Garnett. Fire, Fusion & Steel (Imperium Games, 1997), 65.
- ↑ Marc Miller. T5 Core Rules (Far Future Enterprises, 2013), 323.