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 I14

PropertyValue ReasoningOther transfers
Name by naming convention of transfers see all the transfers
Fundamental interaction non-universal weak decay by naming convention of transfers, see mapping transfers onto interactionssee all the transfers
q-diagram q-diagram of I_14 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 = B, 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 [0S]A[TBE] 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 - ε see DFI article, pg. 15-18 * see all the transfers
Self-identifier and outgoing identifier on A, B and M yn yy 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? V R - see Derivation of basic properties * see all the transfers
Parameter variants sq × sv 4 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,-1} see Derivation of basic properties * see all the transfers
Force type SL see DFI article, pg. 55 * and errata see all the transfers
FB = -FA No see all the transfers
Field type/minimal theory distribution theory see all the transfers
Finishes phases 1p1 see Derivation of basic properties * see all the transfers
Local ε ε l l 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? Yes see Derivation of basic properties * see all the transfers
Is the speed of mediator M measurable? Yessee 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 2, 2, - see Derivation of basic properties * see all the transfers
Number of regimes 2 speed see all the transfers
Exchange A and B - see Derivation of basic properties * see all the transfers
Reverse time + exchange A and B I3, I11 see Derivation of basic properties * see all the transfers

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Compare I14 with another transfer

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