OTHER TRANSPORTER FUNCTIONS

¥Beam up. This process is very much as described above except that the 
emitter array serves as the primary energizing coil and that the signal is 
usually processed through the transporter biofilter.

¥Site-to-site transport. This refers to a double-beaming procedure in which a 
subject is dematerialized at a remote site and routed to a transporter 
chamber. Instead of being materialized in the normal beam-up process, 
however, the matter stream is then shunted to a second pattern buffer and 
then to a second emitter array, which directs the subject to the final 
destination. Such direct transport consumes nearly twice the energy of 
normal transport and is not generally employed except during emergency 
situations. Site-to-site transport is not employed during emergency situations 
that require the transport of large numbers of individuals because this 
procedure effectively halves the total system capacity due to minimum duty 
cycle requirements.

¥Hold in pattern buffer. A transport subject that has not yet begun the 
materialization cycle can be held in the pattern buffer without image 
degradation for up to 420 seconds, depending on payload mass. Although it 
is normal procedure to direct the matter stream immediately to the emitter 
array once Doppler compensation has been synchronized, this ÒholdÓ option 
can be exercised in the event that any problems are detected with the 
emitter array or waveguide conduits. This option is also available at operator 
discretion for security situations when it is desired to detain a transport 
subject for a brief time until security officers are available.

¥Molecular resolution transport. Living objects are always transported at 
quantum resolution. In the interests of power conservation, many cargo 
objects are transported at the lesser molecular resolution. Although 
personnel transporters are optimized for the higher quantum resolution level, 
they can be set to operate for cargo transport if desired.

¥Dispersal. Disengaging the annular confinement beam will cause the 
materializing matter stream to have no reference matrix against which to 
form. In such a case, the transport subject will form in a random fashion, 
usually taking the form of randomly dissociated gases and microscopic 
particulates. Operator override of the transport autosequence can cause the 
ACB to be deactivated in order to allow the harmless dispersal of a highly 
dangerous transport subject such as an explosive device. Two safety 
interlocks prevent this option from being accidentally activated. Such 
dispersal is usually accomplished by transporting the subject into space.

¥Near-warp transport. Transporting through a low-level subspace field (less 
than 1,000 millicochranes) requires a series of adjustments to the transport 
sequence including a 57 MHz upshifting of the ACB frequency to 
compensate for subspace distortion.

¥Transport at warp. Transporting through a warp field requires a similar 57 
MHz ACB frequency upshift; it also requires the ship and the remote site to 
be contained within warp fields of the same integral value. Failure to 
maintain warp field equivalence will result in severe loss of ACB and pattern 
integrity. Such loss of pattern integrity is fatal to living transport subjects.

¥Biofilter scan. Incoming transporter signals are automatically scanned for 
patterns corresponding to a wide variety of known hazardous bacteriological 
and viral forms. When such patterns are detected, limited quantum matrix 
manipulation is employed to render the offending forms inert.  Æ