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Spooky action at distance also for neutral kaons? Testing Foundations in Quantum Mechanics with the neutral K-meson system by Beatrix C. Hiesmayr On leave: University of Vienna & Quantum Information Research Center Bratislava Physics Particle Physics Quantum Theory Discrete 2010, Beatrix C. Hiesmayr Outlook Physics Particle Physics Quantum Theory Part I: Bell inequalities in Particle Physics: What has nonlocality to do with CP violation? Part II: Heisenberg’s Uncertainty relation: A new interpretation of measurements at accelerator facilities Part II: How to detect the amount of entanglement? Decoherence in HEP Experiments (KLOE detector)? Part III: An advantage of entangled neutral kaons: offers new possibilities for quantum erasure !!! Discrete 2010, Beatrix C. Hiesmayr About correlations… drawn by R.A. Bertlmann to the 60th birthday of J.S. Bell Discrete 2010, Beatrix C. Hiesmayr Outlook: DAPHNE, a F-factory (Italy) "Physics with the KLOE-2 experiment at the upgraded DAPHNE„ G. Amelino-Camelia, F. Archilli, D. Babusci, D. Badoni, G. Bencivenni, J. Bernabeu, R.A. Bertlmann, D.R. Boito, C. Bini, C. Bloise, V. Bocci, F. Bossi, P. Branchini, A. Budano, S.A. Bulychjev, P. Campana, G. Capon, F. Ceradini, P. Ciambrone, E. Czerwinski, H. Czyz, G.D’Ambrosio, E. Dan´e, E. De Lucia, G. De Robertis, A. De Santis, P. De Simone, G. De Zorzi, A. Di Domenico, C. Di Donato, B. Di Micco, D. Domenici, S.I. Eidelman, O. Erriquez, R. Escribano, R. Essig, G.V. Fedotovich, G. Felici, S.Fiore, P. Franzini, P. Gauzzi, F. Giacosa, S. Giovannella, F. Gonnella, E. Graziani, F. Happacher, B.C. Hiesmayr, B. H¨oistad, E. Iarocci, S. Ivashyn, M. Jacewicz, F. Jegerlehner, T. Johansson, J. Lee-Franzini, W. Kluge, V.V. Kulikov, A. Kupsc, R. Lehnert, F. Loddo, P. Lukin, M.A. Martemianov, M. Martini, M.A.Matsyuk, N.E. Mavromatos, F. Mescia, R. Messi, S. Miscetti, G. Morello, D.Moricciani, P. Moskal, S. Müller, F. Nguyen, E. Passemar, M. Passera, A. Passeri, V. Patera, M.R. Pennington, J. Prades, L. Quintieri, A. Ranieri, M. Reece, P. Santangelo, S. Sarkar, I. Sarra, M.Schioppa, P.C. Schuster, B. Sciascia, A. Sciubba, M. Silarski, C. Taccini, N. Toro, L. Tortora, G.Venanzoni, R. Versaci, L.-T. Wang, W. Wislicki, M. Wolke, and J. Zdebik European Physics Journal C 68, Number 3-4, 619-681 (2010) Discrete 2010, Beatrix C. Hiesmayr The EPR scenario Bell state: 1 2 1 2 1 2 1 2 1 2 1 2 0 H l 1 B0 l l l r l 1 l 0 r V l K0 I l r K V 0 K 0 0 ... spin 1/2 r ... photon B II 0 B0 l l r ... B-meson ... kaon K0 r l r r ... qubit H l r B r r r ... single neutron in interferometer R.A. Bertlmann, K. Durstberger, Y. Hasegawa and B.C. Hiesmayr PRA (2004) Filipp et al., PRL (2009) Discrete 2010, Beatrix C. Hiesmayr The EPR scenario 1935: Einstein-Podolsky-Rosen-PARADOX The EPR reality criterion: “If without in any way disturbing a system, one can predict with certainty (i.e. with the probability equal to one) the value of a physical quantity, then there exists an element of physical reality corresponding to this physical quantity.” Quantum Theory is not complete! Discrete 2010, Beatrix C. Hiesmayr What are Bell inequalities? No spooky action at distance! realism locality free will Local realistic theories: Quantum Mechanics: P (a , b) P (a , c ) P (c , b) inequalities for probabilities always satisfied! quantum mechanical probabilities may violate the inequalities! Experiment has to decide! Discrete 2010, Beatrix C. Hiesmayr Similarities/differences Photons H l V r V l H Kaons r K 0 l K 0 K r 0 K0 r l 0 0 P( H , n; H , m) P(V , n;V , m) P ( K , tl ; K , t r ) P ( K , tl ; K , t r ) 18 e S tl Ltr e Ltl S tr 1 4 1 cos 2nm 0 0 2 cos( mt ) e (tl tr ) No decay S L 0 0 0 P ( K , tl ; K , t r ) P ( K , tl ; K , t r ) 0 1 4 0 1 cos(mt ) Discrete 2010, Beatrix C. Hiesmayr Generalized Bell inequality for kaons Bertlmann, Hiesmayr, PRA 63 (2001) What can Alice & Bob measure? measurement device ta SCHSH (kn , km , kn' , km ' ; ta , tb , tc , td ) Are you in a certain quasispin kn or not at time ta? kn 1 n n 2 2 n K 0 n K 0 quasispin local realistic theories E ( kn , t a ; km , t b ) E ( kn , t a ; km ' , t c ) E ( k n ' , t d ; k m , t b ) E ( k n ' , t d ; k m ' , t c ) 2 • vary in times • vary in quasi-spin • or both Discrete 2010, Beatrix C. Hiesmayr Generalized Bell inequality for kaons local realistic theories SCHSH (kn , km , kn' , km ' ; ta , tb , tc , td ) E ( kn , t a ; km , t b ) E ( kn , t a ; km ' , t c ) E ( k n ' , t d ; k m , t b ) E ( k n ' , t d ; k m ' , t c ) 2 I. Vary in time: kn km k n' k m ' K 0 0 0 E ( K , ta ; K , tb ) cos m(ta tb ) e ( ta tb ) S Photon 2 2 2.8 Violation! Kaons? •Bertlmann, Bramon, Garbarino, Hiesmayr, Phys. Lett. A (2004) •Bertlmann, Hiesmayr, Phys. Rev. A (2001) S Kaon ( t a , t b , t c , t d ) 2 NO violation! Strangeness oscillation/decay: m 2m x 1 S PROPOSITION: The CHSH-inequality is violated iff x>2 for kaons or for other mesons x>2.6. B-mesons: x=0.77 D-meson: x<0.03 Bs-mesons: x>20.6 Discrete 2010, Beatrix C. Hiesmayr Bell-CHSH forkaons kaons Bell-CHSHtype type inequality inequality for Bertlmann, Hiesmayr, PRA 63 (2001) 0 0 0 0 SCHSH ( K , K , K , K ; t a , t b , t c , t d ) 0 0 0 0 0 0 0 0 E ( K , ta ; K , tb ) E ( K , ta ; K , tc ) E ( K , t d ; K , t b ) E ( K , t d ; K , t c ) 2 Is it really not possible to distinguish E ( K , t ; K , t ) cos m(t t ) e between local realistic theories and quantum mechanics for neutral kaons in Photons: S 2 2 a2.8direct Violation! experiment? 0 0 a ( ta tb ) b a b Photon Kaons? S Kaon You have to be •Bertlmann, Bramon, Garbarino, Hiesmayr, ( t a , t b , t c , t d ) 2 NO violation! Phys. Lett. A (2004) more tricky! •Bertlmann, Hiesmayr, Phys. Rev. A (2001) Strangeness oscillation/decay: x m 2m 1 S PROPOSITION: The CHSH-inequality is violated iff x>2 for kaons or for other mesons x>2.6. B-mesons: x=0.77 D-meson: x<0.03 Bs-mesons: x>20.6 Discrete 2010, Beatrix C. Hiesmayr !?Nonlocality related to a symmetry violation?! Bell inequalities CP violation world anti-world Discrete 2010, Beatrix C. Hiesmayr What has a symmetry violation to do with nonlocality? SCHSH (kn , km , kn' , km ' ; ta , tb , tc , td ) E ( kn , t a ; km , t b ) E ( kn , t a ; km ' , t c ) E ( k n ' , t d ; k m , t b ) E ( k n ' , t d ; k m ' , t c ) 2 II. Vary in quasi-spin: kn K S , km K k n' k m ' K 1 0 0 ?! CP violation related to nonlocality !? •Bertlmann, Grimus, Hiesmayr,PRA (2001) •Hiesmayr, Found. of Phys. Lett (2001) 0 0 0 Leptonic charge asymmetry: ( K L l l ) ( K L l l ) (3.322 0.055) 10 3 ( K L l l ) ( K L l l ) Discrete 2010, Beatrix C. Hiesmayr Generalized Bell inequality for kaons SCHSH (kn , km , kn' , km ' ; ta , tb , tc , td ) E ( kn , t a ; km , t b ) E ( kn , t a ; km ' , t c ) E ( k n ' , t d ; k m , t b ) E ( k n ' , t d ; k m ' , t c ) 2 I. Vary in time: kn km k n' k m ' K 0 0 0 E ( K , ta ; K , tb ) cos m(ta tb ) e ( ta tb ) S Photon 2 2 2.8 Violation! Kaons? S Kaon ( t a , t b , t c , t d ) 2 NO violation! Discrete 2010, Beatrix C. Hiesmayr Decay is “kind of decoherence” ? short-lived state Kaon in time: K (t ) 0 1 2 e S 2 t im S t KS e long-lived state L t imL 2 t KL state not normalized !! Bertlmann, Grimus, Hiesmayr, Phys. Rev. A (2006) !! particle decay is System ``kind of decoherence´´ !! S E (t 0) S E Environment S E ( t ) U ( t ) S E ( 0)U † ( t ) S (t ) TrE S E (t ) K i S E (0) K i † Discrete 2010, Beatrix C. Hiesmayr Bell inequality sensitive to strangeness violated? Hiesmayr, Eur. Phys. J. C (2007) 0 0 0 0 local realistic theories SCHSH ( K , K , K , K ; t a , t b , t c , t d ) 0 0 0 0 0 0 0 0 E ( K , ta ; K , tb ) E ( K , ta ; K , tc ) E ( K , t d ; K , t b ) E ( K , t d ; K , t c ) 2 Can we violate the BI for a certain initial state and if, what is the maximum value? Arbitrary initial state: r1e i K S K S r2e i K S K L r3e i K L K S r4e i K L K L 1 Expectation value: 2 3 4 Discrete 2010, Beatrix C. Hiesmayr Bell inequality sensitive to strangeness violated? Can we violate the BI for a certain initial state and if, what is the maximum value? Hiesmayr, Eur. Phys. J. C (2007) YES!! The maximal violation is obtained for a non-maximally entangled state A. DiDomenico,Frascati Smax 2.15 antisymmetric state Frascati 2010, Beatrix C. Hiesmayr How much nonlocality is in a decaying system ? „dynamical“ nonlocality 2 2 Bell. max 2.8 n , n ; m , m ; n , n ; m , m tn tm t t T n m 2.6 max n , n ; Bell. m , m ; n , n ; m , m tn t m T ; t tm 0 n 2.4 max n , n ; Bell. m , m ; n , n ; m , m tn t m 0; t tm T n 2.2 2 T [1010 s] arbitrary,tn tm ' tn' tm t,Schrittweite P i 3 50 100 150 Discrete 2010, Beatrix C. Hiesmayr Realizable Bell inequality for KLOE2 ?!? Summary: • CP violation related to nonlocality • direct test not possible with antisymmetric state (also not with changed state due to regneration or due to CPTV,…) Bernabeu, Mavromatos Phys.Rev. D74 (2006) 045014 Open: construct another BI which is sensitive to the antisymmetric Bell state that is measured by KLOE Good: have suitable framework Discrete 2010, Beatrix C. Hiesmayr Heisenberg‘s uncertainty relation 𝟏 ∆𝑨 ∆𝑩 ≥ 𝟐 ∆𝑨 2 = 𝑨𝟐 - 𝑨 𝟐 𝑨, 𝑩 …uncertainty of observable A, standard deviations Position and momentum: 𝟏 ∆𝒙 ∆𝒑 ≥ 𝟐 Your momentum is now known but where have you been at that time of crime? 𝒉 𝒙, 𝒑 = 𝟐 Discrete 2010, Beatrix C. Hiesmayr What questions are raised to the quantum system at accelerator facilities? Are you in a certain quasispin kn or not at at time ta? measurement device ta kn,ta kn 1 n n 2 2 n K 0 n K 0 quasispin Expectationvalue(kn,ta)= Tr( O(kn) ta)) Effective formalism: Expectationvalue(kn,ta)= Tr( Oeff(kn,ta) Heisenberg picture, [Unpublished] solves a lot of subtle problems Discrete 2010, Beatrix C. Hiesmayr Entropic quantum uncertainty principle Heisenberg‘s uncertainty relation: 𝟏 ∆𝑨 ∆𝑩 ≥ 𝑨, 𝑩 𝟐 Spectral decomposition: A= B= …right hand side independent 𝒂|𝒂 𝒂| 𝒃|𝒃 𝒃| of state and eigenvalues 𝟏 𝑯 𝑨 + 𝑯(𝑩) ≥ 𝟐 𝒍𝒐𝒈 𝒎𝒂𝒙𝒂,𝒃 | 𝒂 𝒃 | 𝑯 𝑿 = −𝒑 𝒍𝒐𝒈 𝒑 − 𝟏 − 𝒑 𝒍𝒐𝒈(𝟏 − 𝒑) …binary entropy Example: 𝝈𝒙 , 𝝈𝒛 𝒎𝒂𝒙 = 𝟏 𝟐 , 𝑹𝑯𝑺: 𝟏 Discrete 2010, Beatrix C. Hiesmayr Comparing measurements at different times may increase or decrease the uncertainty in the system 𝑯 𝑶𝒆𝒇𝒇 (𝒌𝒏, 𝒕𝒏) + 𝑯(𝑶𝒆𝒇𝒇 (𝒌𝒎, 𝒕𝒎)) 𝟏 ≥ 𝟐 𝒍𝒐𝒈 𝒎𝒂𝒙𝒂,𝒃 | 𝒏 𝒎 | blue… n=(kaon,t=0), m=(kaon,t) red… n=(kaon,t=0), m=(long lived,t) pink…n=(kaon,t=0), m=(short lived,t) S S / m L L / m [t / m ] [Unpublished] Discrete 2010, Beatrix C. Hiesmayr How to test the entanglement? Part II: • a parameter z quantifying the amount of spontaneous factorization of the wave function (Schrödinger-Furry hypothesis) • z can be measured by experimental data (CERN,DAPHNE (Italy), KEK BELLE (Japan)) • connect z to a decoherence model (master equation) with l quantifying the strength of the interaction with the environment • connection to measures of entanglement (Von Neumann entropy, entanglement of formation or concurrence) Discrete 2010, Beatrix C. Hiesmayr Spontaneous factorization of the wave function Schrödinger-Furry Hypothesis: (z 1) | |K Sl |K L r |K L l |K 50% 50% | K S | K L l Sr | K L | K S r l Pz ( f1 , tl ; f 2 , tr ) 1 2 2 (1 z ) Re *1 2 2 Observable: QM A A 2 r 0 P( K , tl ; K , tr ) P( K 0 , tl ; K 0 , tr ) cos(mt ) (tl , tr ) cosh( 2 t ) 0 with decoherence (t ) A without decoherence CPLEAR-experiment (1998): (t )(1 z ) 16 z 0.1300..15 Bertlmann, Grimus and Hiesmayr, Phys. Rev. D, 60, 114032 (1999) Discrete 2010, Beatrix C. Hiesmayr Spontaneous factorization of the wave function Schrödinger-Furry Hypothesis (z 1) : | K 0 l K l K r 50% 0 0 |K |K 0 0 K0 l r 50% 0 |K |K 0 l r Pz ( f1 , tl ; f 2 , tr ) 1 2 2 (1 z ) Re *1 2 2 z A 2 r cos(mt ) 12 z (cos(mt ) cos(m( t l t r )) 0 (t l , t r ) 0 cosh( 12 t ) 12 z (cosh( 12 t ) cosh( 12 ( t l t r )) K ,K CPLEAR-experiment (1998): 67 z K , K 0.4100..57 0 0 Bertlmann, Grimus and Hiesmayr, Phys. Rev. D, 60, 114032 (1999) Discrete 2010, Beatrix C. Hiesmayr Testing entanglement/decoherence decoherence in KS,KL/loss of entanglement zK Bertlmann, Grimus, Hiesmayr, Phys.Rev. D (1999) KLOE Coll., Phys. Lett. B (2006) DiDomenico (2009) S KL decoherence in K0,K0: 0.16 0.13 0.15 z 0 z KS K L 0.018 0.040stat 0.07syst z K0 K z KS K L z K0 K 0.003 0.018stat 0.006syst 0 0.4 0.7 (0.10 0.21stat 0.04syst ) 105 (1.4 9.5stat 3.8syst ) 107 But what about z(t)=1-e-lt? B-mesons: zB H BL Bertlmann, Grimus PRD (2001) A.Go, BELLE, PRL (2008) 0 K0 K zB H BL 0.06 0.1 0.029 0.057 B.D. Yabsley (2008) arXiv:0810.1822 (D-mesons) Discrete 2010, Beatrix C. Hiesmayr “Erasing the past and impacting the future” 1801 Thomas Young: Photons interfere! Interference lost because photon watched (gain which way info)! 1982 Drühl & Scully: Erasing the which way info brings interference back! No wonder Einstein would be confused! Discrete 2010, Beatrix C. Hiesmayr The kaonic quantum eraser Bramon, Garbarino, Hiesmayr, Phys. Rev. Lett. 92 (2004) 020405 Bramon, Garbarino, Hiesmayr, Phys. Rev. A 68 (2004) 062111 many experiments with photons, neutrons or atoms Why, kaons? just another quantum system? • because the working principle can be Is this demonstrated in A NEW WAY, all? !!only!! possible with kaons • and it can be performed at KLOE 2 Discrete 2010, Beatrix C. Hiesmayr What does Particle Physics teach us about QM? ... a lot!! Bell inequalities for qm system others than ordinary •Hiesmayr, Found. of Phys. Lett. 14 (2001). matter and light •Bertlmann, Bramon, Garbarino, Hiesmayr, Phys. Lett. A 332, (2004) 355. •Bertlmann, Grimus, Hiesmayr, Phys. Lett. A 289 (2001) 21. •Bertlmann, Hiesmayr, Phys. Rev. A 63 (2001) 062112. •.... How to measure entanglement or decoherence? KEK (Japan) & DAFNE (Italy) •Bertlmann, Durstberger, Hiesmayr, Phys. Rev. A 68 (2003) 012111. •Bertlmann, Grimus, Hiesmayr,Phys. Rev. D 60 (1999) 114032. “Kaonic” Quantum Erasers “Erasing the Past and •Bramon, Garbarino, Hiesmayr, Phys. Rev. Lett. 92 (2004) 020405. Impacting the Future” •Bramon, Garbarino, Hiesmayr, Phys. Rev. A 68 (2004). 062111 Aharanov & Zubairy: Science 307:875, 2005 Bohr’s Complementarity in two-path interferomety or with CP violation (kaons are doubleslits given freely by Nature) Bramon,Garbarino, Hiesmayr, Phys. Rev. A 69 (2004) 022112. Hiesmayr, Huber, Phys. Lett. A (2007) Bramon, Garbarino, Hiesmayr, Eur. J. Phys. C 32 (2004) 377. – – CPT tests, Lorentzsymmetry,… Entanglement in a relativistic setting Discrete 2010, Beatrix C. Hiesmayr Thank you for Your attention!!! University of Vienna www.quantumparticlegroup.at Double slit Hansi Schimpf (Diploma) Heidi Waldner (Diploma) Theodor Adaktylos (Diploma) Christoph Spengler (PhD) Florian Hipp (Diploma) Stefan Greindl (Diploma) Markus Bauer (Diploma) Andreas Gabriel (PhD) David Schlögel (Diploma) Marcus Huber (PostDoc) Gerd Krizek (PhD) B.C.Hiesmayr Heidemarie Knobloch (Diploma) Christina Peham (Diploma,without picture) Paul Erker (without picture) Sasa Radic (Diploma, without picture) Sofia 2010, Beatrix C. Hiesmayr Spooky action at distance also Take away messages for neutral kaons? • The full picture of entanglement and its manifestations is still missing • Investigating systems other than ordinary matter and light adds new aspects (CP violation, dynamical nonlocality) • …has/can be tested in experiments (loss of entanglement) • In higher dimensions or for more particles new featues arise (bounds on entanglement measures, simple inequalities to detect and classify genuine entanglement) … the story has just started Sofia 2010, Beatrix C. Hiesmayr A little history… Drawn by R.A. Bertlmann to the 60th birthday of John Bell CoQuS 2010, Beatrix C. Hiesmayr Measurements: active & passive Strangeness basis: K 0 0 K 0 “Active” measurement: “Passive” measurement: Semileptonic decay modes Q=S: Strong interactions: K0(sd) (ud)+l++l K0(sd) (ud)+l-+l 0 K +p L+ K0+n K-+p, L+0 K0+p K++n Lifetime basis: KKS+ K L L+ K K“Active” measurement: L+0 2 Re 1 2 3 3.2 10 “Passive” measurement: Free propagation: Sensitive to the decay modes: any decay mode observed before t+4.8 tS are identified as KS at time t Misidentification: few parts in 10-3! Misidentification: few parts in 10-3! 2 ’s are identified as KS 3 ’s are identified as KL