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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aQuantum processes$b[electronic resource] /$fWolfram Schommers
210   $aSingapore $cWorld Scientific$d2011
215   $a1 online resource (420 p.)
300   $aDescription based upon print version of record.
311   $a981-279-656-8 
320   $aIncludes bibliographical references and index.
327   $aForeword; Contents; 1. Conventional Quantum Theory; 1.1. Classical Description; 1.2. Schro?dinger's Equations; 1.2.1. Operator Treatment of Schro?dinger's Equation; 1.2.2. Momentum Representation; 1.3. Uncertainty Relations; 1.4. Individuals; Remark; 1.5. Conclusion; 1.6. Aspects; 1.6.1. The Principle of Complementarity; 1.6.2. Objectivity; 1.7. Remarks on the Superposition Principle; 1.8. Basic New Experiments; 1.8.1. General Remarks; 1.8.2. Conclusion; 2. Projection Theory; 2.1. Preliminary Remarks; 2.2. The Projection Principle; 2.2.1. The Elements of Space and Time
327   $a2.2.2. Relationship between Matter and Space-Time2.2.3. Two Relevant Features; Feature 1; Feature 2; Remarks concerning feature 1; Remarks concerning feature 2; 2.2.4. Two Kinds of "Objects"; 2.2.5. Perception Processes; 2.2.6. Inside World and Outside World; 2.2.7. The Influence of Evolution; 2.2.8. Information in the Picture versus Information in Basic Reality (Outside Reality); 2.2.9. Other Biological Systems; 2.2.10. Summary; 2.3. Projections; 2.3.1. Principal Remarks; 2.3.2. Mach's Principle; 2.3.3. Conclusion; 2.3.4. Other Spaces; 2.3.4.1. Fourier-space
327   $a2.3.4.2. The influence of Planck's constant2.3.4.3. Reality and its picture; 2.3.4.4. Remark; 2.3.5. Basic Properties; 2.3.5.1. Operators; 2.3.5.2. Conclusion; 2.3.6. Basic Transformation Effects; 2.3.6.1. Particles; 2.3.6.2. Role of time t; 2.3.6.3. Non-local effects; 2.3.6.4. Conclusion; Remark; 2.3.7. Operator Equations; 2.3.7.1. Determination of  (r, t) and  (p, E); 2.3.7.2. Remarks; 2.3.7.3. Space-specific formulation; 2.3.7.4. Discussion concerning equations (2.35) and (2.50); Comparison with Schro?dinger's equation; (r, E)-space representation; 2.3.7.5. Other representations
327   $a2.3.7.6. Superposition principleThe general case; Stationary systems; Conclusion; 2.3.8. Processes; 2.3.8.1. General remarks; 2.3.8.2. Description of properties and appearances; 2.3.8.3. The meaning of the wave function; 2.3.8.4. Properties of probability distributions; 2.3.8.5. Does god play dice?; 2.3.9. Time; 2.3.9.1. Reference time and selection processes; Principal remarks; Introduction of the reference system; 2.3.9.2. Structure of reference time; 2.3.9.3. Selections; Convolution integral; Two types of time variables; Rectangular form for the reference time distribution
327   $aEffect of motion2.3.9.4. Information inside, information outside; 2.3.9.5. Reality outside; 2.3.9.6. Constancy phenomena; 2.3.9.7. Schro?dinger's equation and its limitations; Derivation of Schro?dinger's equation from the principles of projection theory; Space-time information; Information in connection with usual quantum theory; Summary; 2.3.9.8. Real situation; General remarks; Aspects; 2.3.9.9.  -Dependent systems; 2.3.9.10. Some additional remarks; 2.3.9.11. Uncertainty relation for time and energy; 2.3.9.12. Time within special theory of relativity; Block universe; Feynman diagrams
327   $a2.4. Summary
330   $aSpace and time are probably the most important elements in physics. Within the memory of man, all essential things are represented within the frame of space-time pictures. This is obviously the most basic information. What can we say about space and time? It is normally assumed that the space is a container filled with matter and that the time is just that which we measure with our clocks. However, there are some reasons to take another standpoint and to consider this container-conception as unrealistic, as prejudice so to say. Already the philosopher Immanuel Kant pointed on this serious prob
606   $aQuantum theory
606   $aSpace and time
615  0$aQuantum theory.
615  0$aSpace and time.
676   $a539
686   $aUH 8300$2rvk
686   $aUK 2000$2rvk
700   $aSchommers$b W$g(Wolfram),$f1941-$0786858
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910778962503321
996   $aQuantum processes$93709669
997   $aUNINA