Fundamentals of quantum optics and quantum information:
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | Hier auch später erschienene, unveränderte Nachdrucke Angekündigt u.d.T.: Lambropoulos, Peter: Quantum optics and quantum information |
| Beschreibung: | XIV, 325 S. Ill., graph. Darst. |
| ISBN: | 354034571X 9783642070952 |
Internformat
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| 245 | 1 | 0 | |a Fundamentals of quantum optics and quantum information |c Peter Lambropoulos ; David Petrosyan |
| 246 | 1 | 3 | |a Quantum optics and quantum information |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2007 | |
| 300 | |a XIV, 325 S. |b Ill., graph. Darst. | ||
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| 500 | |a Angekündigt u.d.T.: Lambropoulos, Peter: Quantum optics and quantum information | ||
| 650 | 4 | |a Information theory in optics | |
| 650 | 4 | |a Quantum optics | |
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Datensatz im Suchindex
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| adam_text | PETER LAMBROPOULOS DAVID PETROSYAN FUNDAMENTALS OF QUANTUM OPTICS AND
QUANTUM INFORMATION WITH 95 FIGURES FYA SPRINGER CONTENTS PART I QUANTUM
OPTICS 1 QUANTUM MECHANICAL BACKGROUND 5 1.1 THE MATHEMATICAL FRAMEWORK
5 1.1.1 COMPLEX VECTOR SPACES 6 1.1.2 BASES AND VECTOR DECOMPOSITION 8
1.1.3 LINEAR OPERATORS 10 1.1.4 MATRIX REPRESENTATION OF OPERATORS 15
1.2 DESCRIPTION OF QUANTUM SYSTEMS 18 1.2.1 PHYSICAL OBSERVABLES 18
1.2.2 QUANTUM MECHANICAL HAMILTONIAN 20 1.2.3 ALGEBRAIC APPROACH FOR THE
HARMONIC OSCILLATOR 21 1.2.4 OPERATORS AND MEASUREMENT 28 1.2.5
HEISENBERG UNCERTAINTY PRINCIPLE 30 1.2.6 TIME EVOLUTION: THE
SCHRODINGER EQUATION 34 1.2.7 HEISENBERG PICTURE 36 1.3 DENSITY OPERATOR
36 1.3.1 PURE AND MIXED STATES 37 1.3.2 EXPECTATION VALUE OF AN OPERATOR
38 1.3.3 REDUCED DENSITY OPERATOR 40 1.3.4 TIME EVOLUTION: THE VON
NEUMANN EQUATION 41 PROBLEMS 42 2 QUANTUM THEORY OF RADIATION 45 2.1
MAXWELL S EQUATIONS AND FIELD QUANTIZATION 45 2.1.1 FIELD QUANTIZATION
IN OPEN SPACE 49 2.1.2 FIELD QUANTIZATION IN A CAVITY 52 2.2 QUANTUM
STATES OF THE FIELD 53 2.2.1 SINGLE-MODE CAVITY FIELD 53 2.2.2 FREE
ELECTROMAGNETIC FIELD 57 2.3 PHOTON DETECTION AND CORRELATION FUNCTIONS
59 XII CONTENTS 2.4 REPRESENTATIONS OF THE FIELD 63 2.4.1 COHERENT STATE
REPRESENTATION 63 2.4.2 QUASI-PROBABILITY DISTRIBUTIONS 66 PROBLEMS 71 3
ATOM IN AN EXTERNAL RADIATION FIELD 73 3.1 ONE ELECTRON ATOM 73 3.1.1
ELECTRONIC STATES OF AN ATOM 73 3.1.2 ANGULAR MOMENTUM AND SPIN IN
QUANTUM THEORY .... 78 3.1.3 SPIN-ORBIT COUPLING 80 3.2 COUPLING OF
RADIATION FIELD WITH ATOMIC ELECTRON 81 3.3 TWO-LEVEL ATOM INTERACTING
WITH MONOCHROMATIC FIELDS 84 3.3.1 INTERACTION OF AN ATOM WITH A
CLASSICAL FIELD 85 3.3.2 INTERACTION OF AN ATOM WITH A QUANTIZED FIELD:
JAYNES-CUMMINGS MODEL 89 3.4 TWO-LEVEL ATOM IN A HARMONIC POTENTIAL 96
3.5 QUANTUM SYSTEM COUPLED TO A RESERVOIR 100 3.5.1 SINGLE STATE COUPLED
TO A CONTINUUM OF STATES 101 3.5.2 SPONTANEOUS DECAY OF AN EXCITED ATOM
IN OPEN SPACE. 104 3.6 THREE-LEVEL ATOM 108 PROBLEMS 116 4
SYSTEM-RESERVOIR INTERACTION 119 4.1 REDUCED DENSITY OPERATOR 119 4.1.1
GENERAL MASTER EQUATION 119 4.1.2 SPONTANEOUS DECAY OF A TWO-LEVEL ATOM
125 4.1.3 DRIVEN TWO-LEVEL ATOM 128 4.2 QUANTUM STOCHASTIC WAVEFUNCTIONS
133 4.2.1 GENERAL FORMULATION 133 4.2.2 APPLICATION TO A DRIVEN
TWO-LEVEL ATOM 136 4.3 HEISENBERG-LANGEVIN EQUATIONS OF MOTION 139 4.3.1
GENERAL FORMULATION 140 4.3.2 APPLICATION TO A TWO-LEVEL ATOM 144
PROBLEMS 149 5 CAVITY QUANTUM ELECTRODYNAMICS 151 5.1 SINGLE MODE CAVITY
FIELD COUPLED TO A RESERVOIR 151 5.1.1 MASTER EQUATION 153 5.1.2
STOCHASTIC WAVEFUNCTIONS 156 5.1.3 FOKKER-PLANCK EQUATION 158 5.1.4
HEISENBERG-LANGEVIN EQUATIONS OF MOTION 161 5.2 ATOM IN A DAMPED CAVITY
165 5.3 SINGLE PHOTONS ON DEMAND FROM ATOM IN A CAVITY 170 PROBLEMS 176
CONTENTS XIII 6 FIELD PROPAGATION IN ATOMIC MEDIA 179 6.1 PROPAGATION
EQUATION FOR SLOWLY VARYING ELECTRIC FIELD 179 6.2 FIELD PROPAGATION IN
A TWO-LEVEL ATOMIC MEDIUM 184 6.3 FIELD PROPAGATION IN A THREE-LEVEL
ATOMIC MEDIUM 189 PROBLEMS 197 PART II QUANTUM INFORMATION 7 ELEMENTS OF
CLASSICAL COMPUTATION 203 7.1 BITS AND MEMORY 203 7.2 CIRCUITS 204 7.2.1
WIRES AND GATES 204 7.2.2 CIRCUIT EXAMPLES 205 7.2.3 ELEMENTS OF
UNIVERSAL CIRCUIT CONSTRUCTION 207 7.3 COMPUTATIONAL RESOURCES 208 7.4
REVERSIBLE COMPUTATION 208 PROBLEMS 210 8 FUNDAMENTALS OF QUANTUM
INFORMATION 211 8.1 QUANTUM BITS AND MEMORY 211 8.2 QUANTUM CIRCUITS 213
8.2.1 ONE QUBIT GATES 213 8.2.2 TWO AND MORE QUBIT GATES 215 8.2.3 QUBIT
MEASUREMENT 218 8.3 NO-CLONING THEOREM 220 8.4 GENUINE PHYSICAL QUBITS
221 8.4.1 SPIN-I QUBIT 221 8.4.2 PHOTON POLARIZATION QUBIT 223 8.5
ENTANGLEMENT, DECOHERENCE AND QUANTUM ERASURE 226 8.6 QUANTUM
TELEPORTATION AND DENSE CODING 227 8.7 QUANTUM CRYPTOGRAPHY 231 8.7.1
BB84 PROTOCOL 233 8.7.2 B92 PROTOCOL 234 8.7.3 EPR PROTOCOL 235 8.8
EINSTEIN-PODOLSKY-ROSEN PARADOX 235 8.8.1 LOCAL HIDDEN VARIABLE AND
BELL S INEQUALITY 237 8.8.2 VIOLATIONS OF BELL S INEQUALITY 240 8.8.3
GREENBERGER-HORNE-ZEILINGER EQUALITY 243 8.9 ENTROPY AND INFORMATION
THEORY 245 PROBLEMS 248 XIV CONTENTS 9 PRINCIPLES OF QUANTUM COMPUTATION
251 9.1 OPERATION OF QUANTUM COMPUTER 251 9.1.1 UNIVERSAL GATES FOR
QUANTUM COMPUTATION 251 9.1.2 BUILDING BLOCKS OF A QUANTUM COMPUTER 254
9.2 QUANTUM ALGORITHMS 254 9.2.1 DEUTSCH ALGORITHM 255 9.2.2
DEUTSCH-JOZSA ALGORITHM 257 9.2.3 GROVER ALGORITHM 258 9.2.4 QUANTUM
FOURIER TRANSFORM 262 9.3 QUANTUM COMPUTER SIMULATING QUANTUM MECHANICS
265 9.4 ERROR CORRECTION AND FAULT-TOLERANT COMPUTATION 267 9.4.1
CLASSICAL ERROR CORRECTION 268 9.4.2 QUANTUM ERROR CORRECTION 269 9.4.3
FAULT-TOLERANT QUANTUM COMPUTATION 275 PROBLEMS 279 10 PHYSICAL
IMPLEMENTATIONS OF QUANTUM COMPUTATION 281 10.1 REQUIREMENTS FOR
PHYSICAL IMPLEMENTATIONS OF QUANTUM INFORMATION PROCESSING 281 10.2
RYDBERG ATOMS IN MICROWAVE CAVITY 282 10.2.1 LOGIC GATES AND
MULTIPARTICLE ENTANGLEMENT 284 10.2.2 SCHRODINGER CAT STATES OF THE
CAVITY FIELD 287 10.3 ION-TRAP QUANTUM COMPUTER 292 10.4 CAVITY
QED-BASED QUANTUM COMPUTER 296 10.5 OPTICAL QUANTUM COMPUTER 300 10.6
QUANTUM DOT ARRAY QUANTUM COMPUTER 304 10.7 OVERVIEW AND CLOSING REMARKS
308 PROBLEMS 309 FURTHER READING 311 INDEX 319
|
| adam_txt |
PETER LAMBROPOULOS DAVID PETROSYAN FUNDAMENTALS OF QUANTUM OPTICS AND
QUANTUM INFORMATION WITH 95 FIGURES FYA SPRINGER CONTENTS PART I QUANTUM
OPTICS 1 QUANTUM MECHANICAL BACKGROUND 5 1.1 THE MATHEMATICAL FRAMEWORK
5 1.1.1 COMPLEX VECTOR SPACES 6 1.1.2 BASES AND VECTOR DECOMPOSITION 8
1.1.3 LINEAR OPERATORS 10 1.1.4 MATRIX REPRESENTATION OF OPERATORS 15
1.2 DESCRIPTION OF QUANTUM SYSTEMS 18 1.2.1 PHYSICAL OBSERVABLES 18
1.2.2 QUANTUM MECHANICAL HAMILTONIAN 20 1.2.3 ALGEBRAIC APPROACH FOR THE
HARMONIC OSCILLATOR 21 1.2.4 OPERATORS AND MEASUREMENT 28 1.2.5
HEISENBERG UNCERTAINTY PRINCIPLE 30 1.2.6 TIME EVOLUTION: THE
SCHRODINGER EQUATION 34 1.2.7 HEISENBERG PICTURE 36 1.3 DENSITY OPERATOR
36 1.3.1 PURE AND MIXED STATES 37 1.3.2 EXPECTATION VALUE OF AN OPERATOR
38 1.3.3 REDUCED DENSITY OPERATOR 40 1.3.4 TIME EVOLUTION: THE VON
NEUMANN EQUATION 41 PROBLEMS 42 2 QUANTUM THEORY OF RADIATION 45 2.1
MAXWELL'S EQUATIONS AND FIELD QUANTIZATION 45 2.1.1 FIELD QUANTIZATION
IN OPEN SPACE 49 2.1.2 FIELD QUANTIZATION IN A CAVITY 52 2.2 QUANTUM
STATES OF THE FIELD 53 2.2.1 SINGLE-MODE CAVITY FIELD 53 2.2.2 FREE
ELECTROMAGNETIC FIELD 57 2.3 PHOTON DETECTION AND CORRELATION FUNCTIONS
59 XII CONTENTS 2.4 REPRESENTATIONS OF THE FIELD 63 2.4.1 COHERENT STATE
REPRESENTATION 63 2.4.2 QUASI-PROBABILITY DISTRIBUTIONS 66 PROBLEMS 71 3
ATOM IN AN EXTERNAL RADIATION FIELD 73 3.1 ONE ELECTRON ATOM 73 3.1.1
ELECTRONIC STATES OF AN ATOM 73 3.1.2 ANGULAR MOMENTUM AND SPIN IN
QUANTUM THEORY . 78 3.1.3 SPIN-ORBIT COUPLING 80 3.2 COUPLING OF
RADIATION FIELD WITH ATOMIC ELECTRON 81 3.3 TWO-LEVEL ATOM INTERACTING
WITH MONOCHROMATIC FIELDS 84 3.3.1 INTERACTION OF AN ATOM WITH A
CLASSICAL FIELD 85 3.3.2 INTERACTION OF AN ATOM WITH A QUANTIZED FIELD:
JAYNES-CUMMINGS MODEL 89 3.4 TWO-LEVEL ATOM IN A HARMONIC POTENTIAL 96
3.5 QUANTUM SYSTEM COUPLED TO A RESERVOIR 100 3.5.1 SINGLE STATE COUPLED
TO A CONTINUUM OF STATES 101 3.5.2 SPONTANEOUS DECAY OF AN EXCITED ATOM
IN OPEN SPACE. 104 3.6 THREE-LEVEL ATOM 108 PROBLEMS 116 4
SYSTEM-RESERVOIR INTERACTION 119 4.1 REDUCED DENSITY OPERATOR 119 4.1.1
GENERAL MASTER EQUATION 119 4.1.2 SPONTANEOUS DECAY OF A TWO-LEVEL ATOM
125 4.1.3 DRIVEN TWO-LEVEL ATOM 128 4.2 QUANTUM STOCHASTIC WAVEFUNCTIONS
133 4.2.1 GENERAL FORMULATION 133 4.2.2 APPLICATION TO A DRIVEN
TWO-LEVEL ATOM 136 4.3 HEISENBERG-LANGEVIN EQUATIONS OF MOTION 139 4.3.1
GENERAL FORMULATION 140 4.3.2 APPLICATION TO A TWO-LEVEL ATOM 144
PROBLEMS 149 5 CAVITY QUANTUM ELECTRODYNAMICS 151 5.1 SINGLE MODE CAVITY
FIELD COUPLED TO A RESERVOIR 151 5.1.1 MASTER EQUATION 153 5.1.2
STOCHASTIC WAVEFUNCTIONS 156 5.1.3 FOKKER-PLANCK EQUATION 158 5.1.4
HEISENBERG-LANGEVIN EQUATIONS OF MOTION 161 5.2 ATOM IN A DAMPED CAVITY
165 5.3 SINGLE PHOTONS ON DEMAND FROM ATOM IN A CAVITY 170 PROBLEMS 176
CONTENTS XIII 6 FIELD PROPAGATION IN ATOMIC MEDIA 179 6.1 PROPAGATION
EQUATION FOR SLOWLY VARYING ELECTRIC FIELD 179 6.2 FIELD PROPAGATION IN
A TWO-LEVEL ATOMIC MEDIUM 184 6.3 FIELD PROPAGATION IN A THREE-LEVEL
ATOMIC MEDIUM 189 PROBLEMS 197 PART II QUANTUM INFORMATION 7 ELEMENTS OF
CLASSICAL COMPUTATION 203 7.1 BITS AND MEMORY 203 7.2 CIRCUITS 204 7.2.1
WIRES AND GATES 204 7.2.2 CIRCUIT EXAMPLES 205 7.2.3 ELEMENTS OF
UNIVERSAL CIRCUIT CONSTRUCTION 207 7.3 COMPUTATIONAL RESOURCES 208 7.4
REVERSIBLE COMPUTATION 208 PROBLEMS 210 8 FUNDAMENTALS OF QUANTUM
INFORMATION 211 8.1 QUANTUM BITS AND MEMORY 211 8.2 QUANTUM CIRCUITS 213
8.2.1 ONE QUBIT GATES 213 8.2.2 TWO AND MORE QUBIT GATES 215 8.2.3 QUBIT
MEASUREMENT 218 8.3 NO-CLONING THEOREM 220 8.4 GENUINE PHYSICAL QUBITS
221 8.4.1 SPIN-I QUBIT 221 8.4.2 PHOTON POLARIZATION QUBIT 223 8.5
ENTANGLEMENT, DECOHERENCE AND QUANTUM ERASURE 226 8.6 QUANTUM
TELEPORTATION AND DENSE CODING 227 8.7 QUANTUM CRYPTOGRAPHY 231 8.7.1
BB84 PROTOCOL 233 8.7.2 B92 PROTOCOL 234 8.7.3 EPR PROTOCOL 235 8.8
EINSTEIN-PODOLSKY-ROSEN PARADOX 235 8.8.1 LOCAL HIDDEN VARIABLE AND
BELL'S INEQUALITY 237 8.8.2 VIOLATIONS OF BELL'S INEQUALITY 240 8.8.3
GREENBERGER-HORNE-ZEILINGER EQUALITY 243 8.9 ENTROPY AND INFORMATION
THEORY 245 PROBLEMS 248 XIV CONTENTS 9 PRINCIPLES OF QUANTUM COMPUTATION
251 9.1 OPERATION OF QUANTUM COMPUTER 251 9.1.1 UNIVERSAL GATES FOR
QUANTUM COMPUTATION 251 9.1.2 BUILDING BLOCKS OF A QUANTUM COMPUTER 254
9.2 QUANTUM ALGORITHMS 254 9.2.1 DEUTSCH ALGORITHM 255 9.2.2
DEUTSCH-JOZSA ALGORITHM 257 9.2.3 GROVER ALGORITHM 258 9.2.4 QUANTUM
FOURIER TRANSFORM 262 9.3 QUANTUM COMPUTER SIMULATING QUANTUM MECHANICS
265 9.4 ERROR CORRECTION AND FAULT-TOLERANT COMPUTATION 267 9.4.1
CLASSICAL ERROR CORRECTION 268 9.4.2 QUANTUM ERROR CORRECTION 269 9.4.3
FAULT-TOLERANT QUANTUM COMPUTATION 275 PROBLEMS 279 10 PHYSICAL
IMPLEMENTATIONS OF QUANTUM COMPUTATION 281 10.1 REQUIREMENTS FOR
PHYSICAL IMPLEMENTATIONS OF QUANTUM INFORMATION PROCESSING 281 10.2
RYDBERG ATOMS IN MICROWAVE CAVITY 282 10.2.1 LOGIC GATES AND
MULTIPARTICLE ENTANGLEMENT 284 10.2.2 SCHRODINGER CAT STATES OF THE
CAVITY FIELD 287 10.3 ION-TRAP QUANTUM COMPUTER 292 10.4 CAVITY
QED-BASED QUANTUM COMPUTER 296 10.5 OPTICAL QUANTUM COMPUTER 300 10.6
QUANTUM DOT ARRAY QUANTUM COMPUTER 304 10.7 OVERVIEW AND CLOSING REMARKS
308 PROBLEMS 309 FURTHER READING 311 INDEX 319 |
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| author | Lambropoulos, Peter 1935- Petrosyan, David |
| author_GND | (DE-588)132349558 (DE-588)132349604 |
| author_facet | Lambropoulos, Peter 1935- Petrosyan, David |
| author_role | aut aut |
| author_sort | Lambropoulos, Peter 1935- |
| author_variant | p l pl d p dp |
| building | Verbundindex |
| bvnumber | BV022268802 |
| callnumber-first | Q - Science |
| callnumber-label | QC446 |
| callnumber-raw | QC446.2 |
| callnumber-search | QC446.2 |
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| callnumber-subject | QC - Physics |
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| classification_tum | PHY 370f DAT 503f |
| ctrlnum | (OCoLC)74650533 (DE-599)BVBBV022268802 |
| dewey-full | 535.15 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 535 - Light and related radiation |
| dewey-raw | 535.15 |
| dewey-search | 535.15 |
| dewey-sort | 3535.15 |
| dewey-tens | 530 - Physics |
| discipline | Physik Informatik |
| discipline_str_mv | Physik Informatik |
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| id | DE-604.BV022268802 |
| illustrated | Illustrated |
| index_date | 2024-07-02T16:45:26Z |
| indexdate | 2024-07-09T20:53:45Z |
| institution | BVB |
| isbn | 354034571X 9783642070952 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015479324 |
| oclc_num | 74650533 |
| open_access_boolean | |
| owner | DE-20 DE-703 DE-19 DE-BY-UBM DE-83 DE-11 DE-355 DE-BY-UBR DE-91G DE-BY-TUM |
| owner_facet | DE-20 DE-703 DE-19 DE-BY-UBM DE-83 DE-11 DE-355 DE-BY-UBR DE-91G DE-BY-TUM |
| physical | XIV, 325 S. Ill., graph. Darst. |
| publishDate | 2007 |
| publishDateSearch | 2007 |
| publishDateSort | 2007 |
| publisher | Springer |
| record_format | marc |
| spelling | Lambropoulos, Peter 1935- Verfasser (DE-588)132349558 aut Fundamentals of quantum optics and quantum information Peter Lambropoulos ; David Petrosyan Quantum optics and quantum information Berlin [u.a.] Springer 2007 XIV, 325 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Hier auch später erschienene, unveränderte Nachdrucke Angekündigt u.d.T.: Lambropoulos, Peter: Quantum optics and quantum information Information theory in optics Quantum optics Quanteninformatik (DE-588)4705961-8 gnd rswk-swf Quantenoptik (DE-588)4047990-0 gnd rswk-swf Quantenoptik (DE-588)4047990-0 s DE-604 Quanteninformatik (DE-588)4705961-8 s Petrosyan, David Verfasser (DE-588)132349604 aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2803616&prov=M&dok_var=1&dok_ext=htm Inhaltstext HEBIS Datenaustausch Darmstadt application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015479324&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Lambropoulos, Peter 1935- Petrosyan, David Fundamentals of quantum optics and quantum information Information theory in optics Quantum optics Quanteninformatik (DE-588)4705961-8 gnd Quantenoptik (DE-588)4047990-0 gnd |
| subject_GND | (DE-588)4705961-8 (DE-588)4047990-0 |
| title | Fundamentals of quantum optics and quantum information |
| title_alt | Quantum optics and quantum information |
| title_auth | Fundamentals of quantum optics and quantum information |
| title_exact_search | Fundamentals of quantum optics and quantum information |
| title_exact_search_txtP | Fundamentals of quantum optics and quantum information |
| title_full | Fundamentals of quantum optics and quantum information Peter Lambropoulos ; David Petrosyan |
| title_fullStr | Fundamentals of quantum optics and quantum information Peter Lambropoulos ; David Petrosyan |
| title_full_unstemmed | Fundamentals of quantum optics and quantum information Peter Lambropoulos ; David Petrosyan |
| title_short | Fundamentals of quantum optics and quantum information |
| title_sort | fundamentals of quantum optics and quantum information |
| topic | Information theory in optics Quantum optics Quanteninformatik (DE-588)4705961-8 gnd Quantenoptik (DE-588)4047990-0 gnd |
| topic_facet | Information theory in optics Quantum optics Quanteninformatik Quantenoptik |
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