Perspectives on LHC physics:
Gespeichert in:
| Weitere Verfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
New Jersey ; London ; Singapore
World Scientific
[2008]
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| Schlagworte: | |
| Online-Zugang: | kostenfrei Inhaltsverzeichnis |
| Beschreibung: | XIII, 337 Seiten Illustrationen |
| ISBN: | 9789812779755 9812779752 9789812833891 9812833897 |
| DOI: | 10.1142/6686 |
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| 245 | 1 | 0 | |a Perspectives on LHC physics |c editors: Gordon Kane, Aaron Pierce |
| 264 | 1 | |a New Jersey ; London ; Singapore |b World Scientific |c [2008] | |
| 264 | 4 | |c © 2008 | |
| 300 | |a XIII, 337 Seiten |b Illustrationen | ||
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Datensatz im Suchindex
| _version_ | 1804137916347187200 |
|---|---|
| adam_text | Contents
Preface v
1. The LHC — A Why Machine and a
Supersymmetry Factory 1
G. Kane
1.1 A Why Machine ..................... 3
1.2 A Superpartner Factory .................. 5
1.3 Our String Vacuum..................... 9
1.4 After the Champagne.................... 10
2. Dark Matter at the LHC 13
A. Pierce
2.1 Introduction......................... 13
2.2 Weighing the Universe, or Why Expect Dark Matter? . . 13
2.3 What is the Dark Matter?................. 16
2.4 A Test Case: Supersymmetric Dark Matter ....... 18
2.4.1 Neutralinos at the LHC............... 19
2.5 Simple Dark Matter..................... 20
2.6 What If We Don t See Dark Matter at LHC? ...... 21
2.7 Conclusions......................... 21
References ............................. 22
3. LHC s ATLAS and CMS Detectors 25
M. Spiropulu S. Stapnes
3.1 Introduction......................... 25
3.1.1 LHC: The machine................. 26
viii Contents
3.1.2 LHC: Figures of challenge ............. 31
3.2 Detection, Particles and Physics.............. 32
3.3 ATLAS and CMS...................... 37
3.3.1 ATLAS/CMS duality................ 39
3.3.2 Magnet systems................... 40
3.4 ATLAS and CMS: Challenges Addressed......... 43
3.4.1 Inner detectors.................... 43
3.4.2 Calorimetry..................... 45
3.4.3 Muon detectors ................... 47
3.5 Trigger Architecture .................... 49
3.5.1 Googles of data and the grid............ 50
3.6 To Be Continued ...................... 52
References ............................. 52
4. Understanding the Standard Model, as a Bridge
to the Discovery of New Phenomena at the LHC 55
M. L. Mangano
4.1 Introduction......................... 55
4.2 Signals of Discovery..................... 57
4.2.1 Mass peaks...................... 58
4.2.2 Anomalous shapes of kinematical distributions . . 59
4.2.3 Counting experiments................ 65
4.3 Measuring Parameters ................... 68
4.4 Conclusions......................... 70
References ............................. 71
5. Thoughts on a Long Voyage 75
L. Susskind
5.1 The Landscape ....................... 75
5.2 The Hierarchy........................ 77
5.3 Linkages........................... 81
5.3.1 The strong CP problem............... 83
5.4 Supersymmetry Breaking and the Landscape....... 84
5.5 Black Holes at the LHC?.................. 84
6. The Top Priority at the LHC 87
T. Han
6.1 Brief Introduction...................... 87
Contents ix
6.2 Top Quark in The Standard Model............ 88
6.2.1 Top-quark decay in the SM............. 89
6.2.2 Top-quark production in the SM.......... 90
6.3 New Physics in Top-Quark Decay............. 93
6.3.1 Charged current decay: BSM............ 93
6.3.2 Neutral current decay: BSM............ 94
6.4 Top Quarks in Resonant Production ........... 95
6.4.1 X - ti, tb...................... 95
6.4.2 T - tZ. tH, bW.................. 97
6.5 Top-Rich Events for New Physics............. 98
6.5.1 TT pair production................. 98
6.5.2 Exotic top signatures................ 101
6.6 Summary and Outlook................... 102
References ............................. 102
7. LHC Discoveries Unfolded 109
J. Lykken and M. Spiropulu
7.1 Escape from Theory Space................. 109
7.2 Dark Matter and Missing Energy............. 112
7.3 Missing Energy at the LHC ................ 114
7.4 A Strategy for Early Discovery with Missing Energy . . 117
7.5 Look-Alikes at the Moment of Discovery......... 119
7.6 Twenty Questions...................... 121
7.7 Spin Discrimination with 100 pb 1 ............ 121
7.8 More Look-Alikes...................... 123
7.9 Simple Robust Discriminators............... 129
7.10 Outlook ........................... 130
References ............................. 130
8. From BCS to the LHC 133
S. Weinberg
References ............................. 142
9. Searching for Gluinos at the Tevatron and Beyond 143
J. Alwall, M.-P. Le, M. Lisanti and J. G. Wacker
9.1 Introduction......................... 143
9.2 Event Generation...................... 145
9.2.1 Signal......................... 145
x Contents
9.2.2 Backgrounds..................... 147
9.3 Projected Reach of Searches................ 148
9.4 Implications for the LHC.................. 150
9.5 Conclusions and Outlook.................. 152
References ............................. 154
10. Naturally Speaking: The Naturalness Criterion
and Physics at the LHC 155
G. F. Giudice
10.1 Naturalness in Scientific Thought............. 155
10.2 Drowning by Numbers................... 157
10.3 A Quantum Complication................. 161
10.4 The Naturalness Criterion as a Principle......... 163
10.5 An Account of Events.................... 165
10.6 The Paths Chosen by Nature ............... 167
10.7 Measuring Naturalness................... 170
10.8 Anthropic Reasoning.................... 172
10.9 Naturalness versus Criticality............... 174
10.10 Conclusions......................... 175
References ............................. 176
11. Prospects for Higgs Boson Searches at the LHC 179
K. Jakobs and M. Schumacher
11.1 Introduction......................... 179
11.2 Higgs Boson Production and Decay............ 181
11.3 Search for the Standard Model Higgs Boson....... 184
11.3.1 Inclusive Higgs boson searches........... 184
11.3.2 Higgs boson searches using vector boson fusion . 188
11.3.3 Higgs boson searches using the associated ttH
production...................... 190
11.3.4 Combined signal significance............ 191
11.4 Determination of Higgs Boson Properties......... 193
11.4.1 Mass and total decay width ............ 193
11.4.2 Partial decay widths and couplings........ 194
11.4.3 Spin and CP quantum number........... 195
11.5 Search for MSSM Higgs Bosons.............. 196
11.5.1 Search for heavy MSSM Higgs bosons....... 197
Contents xi
11.5.2 Discovery potential in various benchmark
scenarios....................... 197
11.6 Conclusions......................... 201
References ............................. 202
12. A Review of Spin Determination at the LHC 205
L.-T. Wang and I. Yavin
12.1 Introduction......................... 205
12.2 Rate and Mass Measurement................ 208
12.3 Angular Correlations in a General Decay Topology ... 211
12.4 Mis-Pairing and Background................ 212
12.5 Spin Determination of Electroweak Gauge-Boson
Partners........................... 214
12.5.1 Charged boson partner s spin - Jet-Hr±
correlations...................... 214
12.5.2 Charged boson partner s spin — ,Iet-Z°
correlations...................... 216
12.5.3 Neutral boson partner s spin............ 217
12.6 Spin Determination of Standard Model Matter Partners 218
12.6.1 Non-degenerate spectrum.............. 221
12.6.2 Degenerate spectrum................ 221
12.6.3 Slope information.................. 222
12.6.4 Long cascade decays and total spin determination 222
12.7 Off-Shell Decays....................... 224
12.7.1 Simulation tools to study spin correlations .... 226
12.8 Conclusion and Outlook.................. 228
References ............................. 229
13. Anticipating a New Golden Age 233
F. Wilczek
13.1 Where We Stand ...................... 233
13.1.1 Celebrating the standard model.......... 233
13.1.2 An unfinished agenda................ 235
13.2 Electroweak Symmetry Breaking.............. 236
13.2.1 The cosmic superconductor............. 236
13.2.2 Minimal model and search............. 236
13.3 Unification and Supersymmetry.............. 237
13.3.1 Unification of charges................ 237
xii Contents
13.3.2 Unification of couplings............... 239
13.3.3 Unification ? SUSY................. 241
13.3.4 SUSY as calibration................. 246
13.4 Dark Matter......................... 246
13.4.1 Dark matter from supersymmetry......... 246
13.4.2 Mission accomplished ?.............. 247
13.5 Hidden Sectors and Portals................. 253
13.5.1 Might the LHC see nothing?............ 253
13.5.2 Motivations for hidden sectors........... 255
13.5.3 Bringing method to the madness.......... 256
13.6 Summary and Conclusions................. 256
References ............................. 257
14. Strongly Interacting Electroweak Theories and
Their Five-Dimensional Analogs at the LHC 259
A. Pomarol
14.1 Introduction......................... 259
14.2 Higgsless Models ...................... 261
14.2.1 The original technicolor model. Achievements
and pitfalls...................... 261
14.2.2 5D Higgsless models................. 264
14.3 Composite Higgs Models.................. 268
14.3.1 Higgs potential and vacuum misalignment .... 270
14.3.2 Fermionic resonances................ 272
14.4 LHC Phenomenology.................... 274
14.4.1 Heavy resonances at the LHC ........... 274
14.4.2 Experimental tests of a composite Higgs ..... 276
References ............................. 280
15. How to Find a Hidden World at the LHC 283
J. D. Wells
15.1 Particle Physics in the LHC Era.............. 283
15.2 Hidden Worlds........................ 285
15.3 Hidden Abelian Higgs Model (HAHM).......... 286
15.4 Precision Electroweak.................... 288
15.5 Example LHC Phenomena of HAHM........... 289
15.6 Beyond the Standard Model and the Hidden World ... 295
References ............................. 297
Contents xiii
16. B Physics at LHCb 299
M. P. Altarelli and F. Teubert
16.1 Introduction......................... 299
16.2 b Physics at the LHC: Environment, Background,
General Trigger Issues ................... 300
16.3 Detector Description and Performance.......... 302
16.3.1 Trigger........................ 303
16.3.2 VELO and tracking system............. 305
16.3.3 Particle identification................ 306
16.4 Physics Objectives ..................... 307
16.4.1 Introduction of formalism.............. 308
16.4.2 Measurement of the Bs mixing phase 0S ..... 309
16.4.3 Bs — cptp as a probe for new physics........ 311
16.4.4 Measurement of the weak decay-phase 7 from
tree-level processes ................. 312
16.4.5 Example of radiative penguins: Bs — jyy..... 315
16.4.6 Example of an electroweak penguin: B — K*mj. . 316
16.4.7 Example of a Higgs-penguin: Bs — fi+/x~..... 318
16.5 Conclusions and Outlook.................. 319
References ............................. 320
17. The LHC and the Universe at Large 323
P. Binetruy
17.1 Introduction......................... 323
17.2 The Dark Side of LHC................... 324
17.3 The Gravitational Side of LHC .............. 330
17.3.1 Phase transitions at the terascale:
the LHC-LISA connection ............. 331
17.3.2 Black hole physics and the LHC.......... 333
17.4 Conclusion.......................... 335
References ............................. 336
|
| adam_txt |
Contents
Preface v
1. The LHC — A "Why" Machine and a
Supersymmetry Factory 1
G. Kane
1.1 A "Why" Machine . 3
1.2 A Superpartner Factory . 5
1.3 Our String Vacuum. 9
1.4 After the Champagne. 10
2. Dark Matter at the LHC 13
A. Pierce
2.1 Introduction. 13
2.2 Weighing the Universe, or Why Expect Dark Matter? . . 13
2.3 What is the Dark Matter?. 16
2.4 A Test Case: Supersymmetric Dark Matter . 18
2.4.1 Neutralinos at the LHC. 19
2.5 Simple Dark Matter. 20
2.6 What If We Don't See Dark Matter at LHC? . 21
2.7 Conclusions. 21
References . 22
3. LHC's ATLAS and CMS Detectors 25
M. Spiropulu S. Stapnes
3.1 Introduction. 25
3.1.1 LHC: The machine. 26
viii Contents
3.1.2 LHC: Figures of challenge . 31
3.2 Detection, Particles and Physics. 32
3.3 ATLAS and CMS. 37
3.3.1 ATLAS/CMS duality. 39
3.3.2 Magnet systems. 40
3.4 ATLAS and CMS: Challenges Addressed. 43
3.4.1 Inner detectors. 43
3.4.2 Calorimetry. 45
3.4.3 Muon detectors . 47
3.5 Trigger Architecture . 49
3.5.1 Googles of data and the grid. 50
3.6 To Be Continued . 52
References . 52
4. Understanding the Standard Model, as a Bridge
to the Discovery of New Phenomena at the LHC 55
M. L. Mangano
4.1 Introduction. 55
4.2 Signals of Discovery. 57
4.2.1 Mass peaks. 58
4.2.2 Anomalous shapes of kinematical distributions . . 59
4.2.3 Counting experiments. 65
4.3 Measuring Parameters . 68
4.4 Conclusions. 70
References . 71
5. Thoughts on a Long Voyage 75
L. Susskind
5.1 The Landscape . 75
5.2 The Hierarchy. 77
5.3 Linkages. 81
5.3.1 The strong CP problem. 83
5.4 Supersymmetry Breaking and the Landscape. 84
5.5 Black Holes at the LHC?. 84
6. The "Top Priority" at the LHC 87
T. Han
6.1 Brief Introduction. 87
Contents ix
6.2 Top Quark in The Standard Model. 88
6.2.1 Top-quark decay in the SM. 89
6.2.2 Top-quark production in the SM. 90
6.3 New Physics in Top-Quark Decay. 93
6.3.1 Charged current decay: BSM. 93
6.3.2 Neutral current decay: BSM. 94
6.4 Top Quarks in Resonant Production . 95
6.4.1 X - ti, tb. 95
6.4.2 T - tZ. tH, bW. 97
6.5 Top-Rich Events for New Physics. 98
6.5.1 TT pair production. 98
6.5.2 Exotic top signatures. 101
6.6 Summary and Outlook. 102
References . 102
7. LHC Discoveries Unfolded 109
J. Lykken and M. Spiropulu
7.1 Escape from Theory Space. 109
7.2 Dark Matter and Missing Energy. 112
7.3 Missing Energy at the LHC . 114
7.4 A Strategy for Early Discovery with Missing Energy . . 117
7.5 Look-Alikes at the Moment of Discovery. 119
7.6 Twenty Questions. 121
7.7 Spin Discrimination with 100 pb"1 . 121
7.8 More Look-Alikes. 123
7.9 Simple Robust Discriminators. 129
7.10 Outlook . 130
References . 130
8. From BCS to the LHC 133
S. Weinberg
References . 142
9. Searching for Gluinos at the Tevatron and Beyond 143
J. Alwall, M.-P. Le, M. Lisanti and J. G. Wacker
9.1 Introduction. 143
9.2 Event Generation. 145
9.2.1 Signal. 145
x Contents
9.2.2 Backgrounds. 147
9.3 Projected Reach of Searches. 148
9.4 Implications for the LHC. 150
9.5 Conclusions and Outlook. 152
References . 154
10. Naturally Speaking: The Naturalness Criterion
and Physics at the LHC 155
G. F. Giudice
10.1 Naturalness in Scientific Thought. 155
10.2 Drowning by Numbers. 157
10.3 A Quantum Complication. 161
10.4 The Naturalness Criterion as a Principle. 163
10.5 An Account of Events. 165
10.6 The Paths Chosen by Nature . 167
10.7 Measuring Naturalness. 170
10.8 Anthropic Reasoning. 172
10.9 Naturalness versus Criticality. 174
10.10 Conclusions. 175
References . 176
11. Prospects for Higgs Boson Searches at the LHC 179
K. Jakobs and M. Schumacher
11.1 Introduction. 179
11.2 Higgs Boson Production and Decay. 181
11.3 Search for the Standard Model Higgs Boson. 184
11.3.1 Inclusive Higgs boson searches. 184
11.3.2 Higgs boson searches using vector boson fusion . 188
11.3.3 Higgs boson searches using the associated ttH
production. 190
11.3.4 Combined signal significance. 191
11.4 Determination of Higgs Boson Properties. 193
11.4.1 Mass and total decay width . 193
11.4.2 Partial decay widths and couplings. 194
11.4.3 Spin and CP quantum number. 195
11.5 Search for MSSM Higgs Bosons. 196
11.5.1 Search for heavy MSSM Higgs bosons. 197
Contents xi
11.5.2 Discovery potential in various benchmark
scenarios. 197
11.6 Conclusions. 201
References . 202
12. A Review of Spin Determination at the LHC 205
L.-T. Wang and I. Yavin
12.1 Introduction. 205
12.2 Rate and Mass Measurement. 208
12.3 Angular Correlations in a General Decay Topology . 211
12.4 Mis-Pairing and Background. 212
12.5 Spin Determination of Electroweak Gauge-Boson
Partners. 214
12.5.1 Charged boson partner's spin - Jet-Hr±
correlations. 214
12.5.2 Charged boson partner's spin — ,Iet-Z°
correlations. 216
12.5.3 Neutral boson partner's spin. 217
12.6 Spin Determination of Standard Model Matter Partners 218
12.6.1 Non-degenerate spectrum. 221
12.6.2 Degenerate spectrum. 221
12.6.3 Slope information. 222
12.6.4 Long cascade decays and total spin determination 222
12.7 Off-Shell Decays. 224
12.7.1 Simulation tools to study spin correlations . 226
12.8 Conclusion and Outlook. 228
References . 229
13. Anticipating a New Golden Age 233
F. Wilczek
13.1 Where We Stand . 233
13.1.1 Celebrating the standard model. 233
13.1.2 An unfinished agenda. 235
13.2 Electroweak Symmetry Breaking. 236
13.2.1 The cosmic superconductor. 236
13.2.2 Minimal model and search. 236
13.3 Unification and Supersymmetry. 237
13.3.1 Unification of charges. 237
xii Contents
13.3.2 Unification of couplings. 239
13.3.3 Unification ? SUSY. 241
13.3.4 SUSY as calibration. 246
13.4 Dark Matter. 246
13.4.1 Dark matter from supersymmetry. 246
13.4.2 "Mission accomplished"?. 247
13.5 Hidden Sectors and Portals. 253
13.5.1 Might the LHC see nothing?. 253
13.5.2 Motivations for hidden sectors. 255
13.5.3 Bringing method to the madness. 256
13.6 Summary and Conclusions. 256
References . 257
14. Strongly Interacting Electroweak Theories and
Their Five-Dimensional Analogs at the LHC 259
A. Pomarol
14.1 Introduction. 259
14.2 Higgsless Models . 261
14.2.1 The original technicolor model. Achievements
and pitfalls. 261
14.2.2 5D Higgsless models. 264
14.3 Composite Higgs Models. 268
14.3.1 Higgs potential and vacuum misalignment . 270
14.3.2 Fermionic resonances. 272
14.4 LHC Phenomenology. 274
14.4.1 Heavy resonances at the LHC . 274
14.4.2 Experimental tests of a composite Higgs . 276
References . 280
15. How to Find a Hidden World at the LHC 283
J. D. Wells
15.1 Particle Physics in the LHC Era. 283
15.2 Hidden Worlds. 285
15.3 Hidden Abelian Higgs Model (HAHM). 286
15.4 Precision Electroweak. 288
15.5 Example LHC Phenomena of HAHM. 289
15.6 Beyond the Standard Model and the Hidden World . 295
References . 297
Contents xiii
16. B Physics at LHCb 299
M. P. Altarelli and F. Teubert
16.1 Introduction. 299
16.2 b Physics at the LHC: Environment, Background,
General Trigger Issues . 300
16.3 Detector Description and Performance. 302
16.3.1 Trigger. 303
16.3.2 VELO and tracking system. 305
16.3.3 Particle identification. 306
16.4 Physics Objectives . 307
16.4.1 Introduction of formalism. 308
16.4.2 Measurement of the Bs mixing phase 0S . 309
16.4.3 Bs — cptp as a probe for new physics. 311
16.4.4 Measurement of the weak decay-phase 7 from
tree-level processes . 312
16.4.5 Example of radiative penguins: Bs — jyy. 315
16.4.6 Example of an electroweak penguin: B — K*mj. . 316
16.4.7 Example of a Higgs-penguin: Bs — fi+/x~. 318
16.5 Conclusions and Outlook. 319
References . 320
17. The LHC and the Universe at Large 323
P. Binetruy
17.1 Introduction. 323
17.2 The Dark Side of LHC. 324
17.3 The Gravitational Side of LHC . 330
17.3.1 Phase transitions at the terascale:
the LHC-LISA connection . 331
17.3.2 Black hole physics and the LHC. 333
17.4 Conclusion. 335
References . 336 |
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| genre | (DE-588)4143413-4 Aufsatzsammlung gnd-content |
| genre_facet | Aufsatzsammlung |
| id | DE-604.BV035000274 |
| illustrated | Illustrated |
| index_date | 2024-07-02T21:40:12Z |
| indexdate | 2024-07-09T21:19:54Z |
| institution | BVB |
| isbn | 9789812779755 9812779752 9789812833891 9812833897 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-016669683 |
| oclc_num | 315690560 |
| open_access_boolean | 1 |
| owner | DE-20 DE-703 DE-83 DE-355 DE-BY-UBR DE-11 DE-19 DE-BY-UBM DE-91G DE-BY-TUM DE-188 |
| owner_facet | DE-20 DE-703 DE-83 DE-355 DE-BY-UBR DE-11 DE-19 DE-BY-UBM DE-91G DE-BY-TUM DE-188 |
| physical | XIII, 337 Seiten Illustrationen |
| publishDate | 2008 |
| publishDateSearch | 2008 |
| publishDateSort | 2008 |
| publisher | World Scientific |
| record_format | marc |
| spelling | Perspectives on LHC physics editors: Gordon Kane, Aaron Pierce New Jersey ; London ; Singapore World Scientific [2008] © 2008 XIII, 337 Seiten Illustrationen txt rdacontent n rdamedia nc rdacarrier LHC (DE-588)4398783-7 gnd rswk-swf Elementarteilchenphysik (DE-588)4014414-8 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content LHC (DE-588)4398783-7 s Elementarteilchenphysik (DE-588)4014414-8 s DE-604 Kane, Gordon L. 1937- (DE-588)12325468X edt Pierce, Aaron edt Erscheint auch als Online-Ausgabe 10.1142/6686 978-981-277-976-2 Erscheint auch als Online-Ausgabe 10.1142/6686 978-981-4472-19-7 https://doi.org/10.1142/6686 Verlag kostenfrei Volltext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016669683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Perspectives on LHC physics LHC (DE-588)4398783-7 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd |
| subject_GND | (DE-588)4398783-7 (DE-588)4014414-8 (DE-588)4143413-4 |
| title | Perspectives on LHC physics |
| title_auth | Perspectives on LHC physics |
| title_exact_search | Perspectives on LHC physics |
| title_exact_search_txtP | Perspectives on LHC physics |
| title_full | Perspectives on LHC physics editors: Gordon Kane, Aaron Pierce |
| title_fullStr | Perspectives on LHC physics editors: Gordon Kane, Aaron Pierce |
| title_full_unstemmed | Perspectives on LHC physics editors: Gordon Kane, Aaron Pierce |
| title_short | Perspectives on LHC physics |
| title_sort | perspectives on lhc physics |
| topic | LHC (DE-588)4398783-7 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd |
| topic_facet | LHC Elementarteilchenphysik Aufsatzsammlung |
| url | https://doi.org/10.1142/6686 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016669683&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT kanegordonl perspectivesonlhcphysics AT pierceaaron perspectivesonlhcphysics |