Probes

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Probes are automated devices allowing the ship or station to extend its sensor range, perform routine surveys or investigate problems. This section will examine the nine classes of General Use probes.

Features common to these types of probes are frames of gamma molded duranium-tritanium and pressure-bonded lufium boronate, with certain sensor windows made of triple layered transparent aluminium. Sensors that don't utilise these windows are affixed to the probe in a variety of methods, from surface blending with the hull material to embedding in the hull itself.

All probes are equipped with instruments to detect and analyze all normal EM and subspace bands, organic and inorganic chemical compounds, atmospheric constituents, and mechanical force properties. While they are all capable of surviving a powered atmospheric entry, three classes are designed to function for extended periods of atmoshperic maneuvering and soft landing.

1 Class I Sensor Probe
2 Class II Sensor Probe
3 Class III Planetary Probe
4 Class IV Stellar Encounter Probe
5 Class V Medium-Range Reconnaissance Probe
6 Class VI Comm Relay/Emergency Beacon
7 Class VII Remote Culture Study Probe
8 Class VIII Medium-Range Multimission Warp Probe
9 Class IX Long-Range Multimission Warp Probe

Class I Sensor Probe

Probe Class I

Range:	2x10⁵km
Delta-v limit:	0.5c
Powerplant:	Vectored deuterium microfusion propulsion
Sensors:	Full EM/subspace Interstellar chemistry pallet
Telemetry:	12,500 channels at 12 megawatts

Class II Sensor Probe

Probe Class II

Range:	4x10⁵km
Delta-v limit:	0.65c
Powerplant:	Vectored deuterium microfusion propulsion Extended deuterium fuel supply
Sensors:	Full EM/subspace Interstellar chemistry pallet Enhanced long-range particle and field detectors and imaging system
Telemetry:	15,650 channels at 20 megawatts

Class III Planetary Probe

Probe Class III

Range:	1.2x10⁶km
Delta-v limit:	0.65c
Powerplant:	Vectored deuterium microfusion propulsion
Sensors:	Terrestrial and gas giant sensor pallet with material sample and return capability On-board chemical analysis submodule
Telemetry:	13,250 channels at 15 megawatts

Additional Data

Limited SIF Hull reinforcement.
Full range of terrestrial soft landing to subsurface penetrator missions.
Gas giant atmosphere missions survivable to 450 bar pressure.
Limited terrestrial loiter time.

Class IV Stellar Encounter Probe

Probe Class IV

Range:	3.5x10⁶km
Delta-v limit:	0.6c
Powerplant:	Vectored deuterium microfusion propulsion Supplemented with continuum driver coil
Sensors:	Triply redundant stellar fields and particles detectors Stellar atmosphere analysis suite
Telemetry:	9,780 channels at 65 megawatts

Additional Data

Six ejectable/survivable radiation flux subprobes.
Deployable for non stellar energy phenomena.

Class V Medium-Range Reconnaissance Probe

Probe Class V

Range:	4.3x10¹⁰km
Delta-v limit:	Warp 2
Powerplant:	Dual-mode matter/antimatter engine Extended duration sublight plus limited duration at warp
Sensors:	Extended passive data-gathering and recording systems Full autonomous mission execution and return system
Telemetry:	6,320 channels at 2.5 megawatts

Additional Data

Planetary atmosphere entry and soft landing capability.
Low observability coatings and hull materials.
Can be modified for tactical applications with addition of custom sensor countermeasure package.

Class VI Comm Relay/Emergency Beacon

Probe Class VI

Range:	4.3x10^wkm
Delta-v limit:	0.8c
Powerplant:	Microfusion engine with high-output MHD power tap
Sensors:	Standard pallet
Telemetry/comm:	9,270 channel RF and subspace transceiver operationg at 350 megawatts peak. 360^o omni antenna coverage 0.0001 arc-second high-gain antenna pointing resolution

Additional Data

Extended deuterium supply for transceiver power generation and planetary orbit plane changes.

Class VII Remote Culture Study Probe

Probe Class VII

Range:	4.5x10⁵km
Delta-v limit:	Warp 1.5
Powerplant:	Dual-mode matter/antimatter engine
Sensors:	Passive data-gathering system Subspace transceiver
Telemetry:	1,050 channels at 0.5 megawatts

Additional Data

Applicable to civilizations up to technology level III.
Low observability coatings and hull materials.
Maximum loiter time: 3.5 months
Low-impact molecular destruct package tied to antitamper detectors.

Class VIII Medium-Range Multimission Warp Probe

Probe Class VIII

Range:	1.2x1 CFl.y
Delta-v limit:	Warp 9
Powerplant:	Matter/antimatter warp field sustainer engine Duration 6.5 hours at Warp 9 MHD power supply tap for sensors and subspace transceiver
Sensors:	Standard pallet plus mission-specific modules
Telemetry:	4,550 channels at 300 megawatts

Additional Data

Applications vary from galactic particles and fields research to early-warning recon missions.

Class IX Long-Range Multimission Warp Probe

Probe Class IX

Range:	7.6x10⁵l.y
Delta-v limit:	Warp 9
Powerplant:	Matter/antimatter warp field sustainer engine Duration 12 hours at Warp 9 Extended fuel supply for Warp 8 maximum flight duration of fourteen days
Sensors:	Standard pallet plus mission-specific modules
Telemetry:	6,500 channels at 230 megawatts

Additional Data

Limited payload capacity
Isolinear memory storage 3,400 kiloquads
Fifty-channel transponder echo
Typical application is emergency log/message capsule on homing trajectory to nearest starbase or known Starfleet vessel position.

Technology Categories

Sensors

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