Model of Transfers Study sources

Information transfer and its properties

Choose an information transfer:

periodic tableτ0 = τAτ0 < τA
τA = τBτA < τBτA = τBτA < τB
τB = τEτB < τEτB = τEτB < τEτB = τEτB < τEτB = τEτB < τE
A ≠ B T = S̅ S = A R = A I0 I1 I2 I3 I4 I5 I6 I7
R = B I8 I9 I10 I11 I12 I13 I14 I15
S = B R = A I16 I17 I18 I19 I20 I21 I22 I23
R = B I24 I25 I26 I27 I28 I29 I30 I31
T = S S = A R = A I32 I33 I34 I35 I36 I37 I38 I39
R = B I40 I41 I42 I43 I44 I45 I46 I47
S = B R = A I48 I49 I50 I51 I52 I53 I54 I55
R = B I56 I57 I58 I59 I60 I61 I62 I63
A = B R = S = T = A I64 I65 I66 I67 I68 I69 I70 I71

To see the specific properties of all the fundamental information transfers in a single place, see the Properties of transfers.

Information transfer I3

PropertyValue ReasoningOther transfers
Name by naming convention of transfers see all the transfers
Fundamental interaction by naming convention of transfers, see mapping transfers onto interactionssee all the transfers
q-diagram q-diagram of I_3 by role distribution and timing,
see Derivation of basic properties *		 see all the transfers
Animation
Animation		 see all the transfers
ordinary transfer / self-transfer ordinary see Derivation of basic properties * see all the transfers
Role distribution R = A, S = A, T S by naming convention of transfers,
see Derivation of basic properties *		 see all the transfers: R, S, T
Timing τ0 = τA < τB < τE by naming convention of transfers,
see Derivation of basic properties *		 see all the transfers: τ0 vs τA, τA vs τB, τB vs τE
Order of events [0SA]B[TE] see all the transfers
Required entanglements ε(R,R̅) + ε(M,R) see DFI article, pg. 15-19 or
Derivation of basic properties *		 see all the transfers
Entanglement(s) use - - ε ε see DFI article, pg. 15-18 * see all the transfers
Self-identifier and outgoing identifier on A, B and M yy yn ny see the required entanglements see all the transfers
Is particle R̅ known before the end? Yes see Derivation of basic properties * see all the transfers
Is mediator M virtual or real? - R V see Derivation of basic properties * see all the transfers
Parameter variants sq × sv 2 variants see Derivation of basic properties * see all the transfers
Parameter sq sq{+1,-1} see Derivation of basic properties * see all the transfers
Parameter sv sv{+1} see Derivation of basic properties * see all the transfers
Force type ZZ see DFI article, pg. 55 * and errata see all the transfers
FB = -FA Yes see all the transfers
Field type/minimal theory 2nd-rank tensor theory see all the transfers
Finishes phases 11p see Derivation of basic properties * see all the transfers
Local l l ε ε see all the transfers
Realistic non-realistic see Derivation of basic properties * see all the transfers
Instant not instant see Derivation of basic properties * see all the transfers
Is particle B affected by M locally? No (τB < τE) see Derivation of basic properties * see all the transfers
Is the speed of mediator M measurable? No (τB < τE)see Derivation of basic properties * see all the transfers
Does the transfer contains a double-interaction? No (A ≠ B)see Derivation of basic properties * see all the transfers
Does the transfer requires another transfer to work? Nosee Derivation of basic properties * see all the transfers
Number of mediatorions in every time phase -, 1, 2 see Derivation of basic properties * see all the transfers
Number of regimes 1 see all the transfers
Exchange A and B - see Derivation of basic properties * see all the transfers
Reverse time + exchange A and B I6, I14 see Derivation of basic properties * see all the transfers

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Compare I3 with another transfer

© 2021-2025 Jiri Voltr,    last update 2024-03-10.