The
warhead of the photon torpedo comprises a maximum of 1.5 kilos of antimatter
and 1.5 kilos
of
matter. These are divided into many thousands of small pellets suspended
in a magnetic field -
smaller
yields can be achieved by reducing the number of such pellets in the torpedo.
Also
included in the torpedo are target acquisition, guidance and detonation
assemblies and a warp
sustainer
unit. The latter is charged by the launching vessels own drive field at
launch, boosting the
torpedo
speed up to Vmax = Vl + (0.75 Vl / c), where Vl is the velocity of the
launching vessel. If
launched
at low impulse flight the torpedo will accelerate to a 75% higher sublight
velocity; launch
at
high impulse speed will not push the torpedo into warp. If launched during
warp flight the torpedo
will
continue at warp until the sustainer is exhausted. Torpedo range can be
extended by utilizing
the
matter / antimatter warhead to power the sustainer, although this causes
a corresponding loss
of
warhead yield. For a mid-range yield the torpedo can achieve ranges of
some 3,500,000
kilometres
at sublight speeds.
The
photon torpedo can be set to fly a ballistic trajectory, be steered by
the launch vessel, can
home
in via its own guidance systems, or use a combination of these methods
in a single flight.
The
warhead of a photon torpedo can be removed and replaced by sensor packages
or other
equipment.
Some advanced models are fitted with full warp drives for use as long range
high
speed
probes - the Class VIII probe can cover 1.12 light years at Warp 9, while
the Class IX probe
can
cover 2 light years at the same speed. On one occasion such a device was
used to transport
a
Federation diplomat to an urgent rendezvous.
.
Torpedo
Types
.
There
are currently eight major photon torpedo launch systems in use with the
Federation:
Torpedo
tube (2nd class):
Dating
from the late 2200's, this model is now only in service on the
Excelsior,
Miranda, Centaur, Oberth, and Constellation classes. This tube is capable
of firing one
photon
torpedo approximately every four seconds.
Standard
Torpedo Tube:
A modern version of the 2nd class torpedo tube, this model can fire a
torpedo
every two seconds. It is more compact than the older model, has lower maintenance
requirements,
and is less prone to overheating with prolonged use.
Burst
Fire, Type 1:
One of the most important advances in torpedo tube technology, the burst
fire
tube
allows more than one torpedo to be launched simultaneously. The Type 1
model can load and
fire
a cluster of four photons every 2.85 seconds; although this makes the tube
almost three times
as
bulky as a standard tube, it allows many targets to be engaged simultaneously.
The Type 1 is
fitted
to the Ambassador class as well as various starbases and space stations.
Burst
Fire, Type 2:
Designed for larger vessels, the type 2 burst fire torpedo tube can fire
up to
eight
photons every five seconds, giving a greater overall rate of fire and increasing
the number of
targets
which can be engaged simultaneously.
Burst
Fire, Type 3:
Developed to arm the Galaxy and Nebula classes, this tube can fire up to
ten
torpedoes
every five seconds - a 25% increase over the type 3 - or alternately can
fire single
rounds
at a high rate of fire.
Burst
Fire, Type 4:
The type 4 is the most powerful photon torpedo tube currently in service
with
the
Federation. It can fire twelve torpedoes every at once, and currently is
only fitted to the
Sovereign
class battlecruiser.
Pulse
Fire:
Developed for the Akira class, the Pulse fire tube is a modification of
the burst fire tube.
The
loading and pre-fire stages can hold up to four photons simultaneously,
but the launch tube
itself
is only of sufficient size to fire one weapon at a time. The pulse fire
tube therefore fires four
rounds
in one second, then pauses for three seconds to reload with the next four
photons. Overall
rate
of fire is therefore one torpedo per second.
Micro
tube:
This system was developed to arm small vessels such as Runabouts and
shuttlecraft.
It fires a compact torpedo with a much smaller warhead than the standard
models.