Stephen Hawking, His Life and Work

Page 42

by Kitty Ferguson

and arrows of time 301

and brane worlds theory 336–7

and instanton (‘pea’) theory 320–3, 376

and M-theory 418–19

eternal inflation models 375–6

anti-de Sitter conformal field theory (ADS-CFT) 373–4

antigravity 315

and accelerating expansion 315

antiparticles/antimatter 34, 120–1, 122f6.2, 437, 447g

Apsell, Paula 399

arbitrary elements 25, 255, 447g

Aristotle, quintessence 315

arrows of time 226, 297–301

cosmological arrow 298, 299–301, 448g

subjective/psychological arrow 298, 455g

thermodynamic arrow 298, 457g

Asimov, Isaac, on scientist stereotypes 412

Aspen Music Festival 308

astronomy, SWH’s early interest 44, 45

atomic particles 20–3, 36–9

see also particles

Augustine, St 175

baby universes 250–60, 262

and black holes 375

in imaginary time 251

balloon analogies 108, 216, 221–3, 227–8, 250–3, 255, 415

Bantam (publisher)

and A Brief History of Time 225–6, 235–7, 238, 240

and The Universe in a Nutshell 329–31

Bardeen, James, and event horizon thermodynamics 117

Barrow, John

on historical complexity 286

The Book of Universes 223

Bayreuth, Ring cycle 75

BBC TV

Hawking 365–6

Horizon 169

Newsnight 393

Stephen Hawking: Profile 365

Stephen Hawking’s Universe 312

The Hawking Lectures 350

The Key to the Universe 154

Bekenstein, Jacob

on event horizon/entropy 116–20, 178

on photon information in black holes 166–7

Bell Laboratories 180

Benjamin Franklin Medal in Physics 193

Bennett, Charles, on WMAP data results 388

Berkeley CMBR experiments 181

Berman, Dr Robert 54, 55, 56–7, 60

Berman, Nick 292–3

Berry, Gordon 55, 56, 57–8, 60

Bertolucci, Sergio, on Higgs particle search 391

Big Bang Observer (NASA) 404

Big Bang theory 63–4, 79, 447–8 g

and CMBR 181–3

and inflation theory 184–9

singularity 197–209, 447 g

naked singularity 314

illustrated 437–8

Big Crunch 110f6.1(a), 182–3, 319, 355, 375–6, 438–9

black cabs, Hawking family and 45–6

black holes 448g

and baby universes 375

and gravity 98–105

brane worlds theory 335–8

dynamics, 2nd law 114

event horizon area, non-decrease 112–18

gravity wave detectors 402–

information loss/recovery in 148, 166–73, 357–64

see also information paradox

large cold 124

microscopic, hopes for LHC confirmation 390–1

new topology 361–2

primordial

observable as gamma ray bursts 147, 196

particle emission 124–5, 196–7, 262

quantum mechanics 117–24

singularities without event horizons 313–14

sums-over-histories, and information paradox 369–70

uncertainty principle and rotational energy 119–20

Blackburn, Sam 395

Boat Club, Oxford 57–9, 60

Bohr, Niels, and complementarity 304

Bondi, Hermann 63, 64

and SWH’s fellowships 80, 88

Borde, Arvind 286

Boslough, John 175

on SWH 87–8

bosons 448g

as ‘messenger’ particles 21, 36

gravitons 21, 32–3

Higgs boson 388–91

photons 21, 36–9

spin 159–60

boundary conditions 23–5, 448g

see also no-boundary proposal

Bousso, Raphael

on string theory equations 374

on SWH’s 60th 351

Brandenberger, Robert, inflation theory, and brane world models 372

brane worlds theory 327–9, 334–7

and inflation 372

and M-theory 347–9, 414

ekpyrotic model 405

Branson, Richard, Virgin Galactic 381

Bristol University, disabled living facilities 248

Bryan, Richard 55, 60

Bucher, Martin, inflation/open universe theory 319

Bunster, Claudio 385

Burgoyne, Chris (graduate assistant) 317

Burke, Bernard, and CMBR 180–1

Bush, George W., SWH on 368

Byron House School, Highgate 44–5

Caius College see Gonville and Caius College

California Institute of Technology (Caltech) 81

Relativity Group 145

Sherman Fairchild Distinguished Scholar 141, 143–51, 163

SWH lectures 163, 249, 355, 377, 386, 390, 395–9, 444

2005 lecture, ‘To Boldly Go’ 366

2006 lecture, top-down approach 377–8

year at 141–2, 143–51

California Institute of Theoretical Physics 194

CAM magazine 242

Cambridge Centre for Sixth Form Studies 162

Cambridge University

Cavendish Laboratory 14, 15, 36, 331

Centre for Mathematical Sciences 331–3

Centre for Theoretical Cosmology 393, 444

chair in gravitational physics 155

Clare Hall 137, 145, 331

Department of Applied Mathematics and Theoretical Physics see DAMTP

Gonville and Caius college

research fellowships 79–80, 83–8, 132

Fellowship for Distinction in Science 88

Institute of Astronomy, research fellowship 84, 132–3

Institute of Physics, SWH physical therapy funding 86

St John’s College, Adams Prize 85

Trinity Hall 62, 68, 81

May Ball 71, 164

Cambridge University Press 225, 237

Cameron, James 399

Carr, Bernard 350

on SWH’s 60th 351

SWH’s assistant 143, 145

Carrey, Jim 355

Carter, Brandon 84

and anthropic principle 178

and event horizon thermodynamics 117

Catholic League 382

CERN

Large Electron Positron (LEP) experiment 389

Large Hadron Collider (LHC) 161, 389–91

Chandrasekhar, Subrahmanyan 79

chaos theory 172n

chaotic inflation 221–3, 284–7

Charles Prince of Wales

and GM food 324

toes run over 155

Charlie Rose Show 395

Choptuik, Matthew, singularities without event horizons 313

Christodoulou, Demetrios

on irreducible mass 115–16

singularities without event horizons 313

Chronically Sick and Disabled Person’s Act 1970 136

chronophage clock 391–3

Church, Michael 49, 50

Civil Service exams 60

classical physics 448g

Clinton, Bill, Millennium Evening series 316

closed system entropy 115–16

CMBR see cosmic microwave background radiation

Cockcroft Lecture Room 15

Coleman, Sidney

on SWH 246

on zero-like cosmological constants 257–8

Communications in Mathematical Physics 127

complementarity 303–4

computer intelligence,
SWH on 343–5

computer viruses, as life, SWH on 295–6

Conway, John Horton, Game of Life 426–8

Copernicus, Nicolaus 118, 353

Cornell University, general relativity summer school 82

Corpus Christi College

chronophage clock 391–3

Old Court 14

Cosmic Background Explorer (COBE), CMBR ripples 290–1

cosmic censorship conjecture 312–13

cosmic microwave background radiation (CMBR)

and Big Bang theory 181–4

and COBE 290–1

and whole universe information 405–8

and WMAP 353–5, 388, 400–1

balloon observations 353

Einstein Inflation Probe 404–5

ESA Planck satellite observations 401, 405, 408

measurement/mapping 353–5, 372

ripples detected 290–1

temperature fluctuations 388, 400–5

randomness 405–8

cosmological arrow of time 298, 299–301, 448g

cosmological constant 107, 184, 256–8, 315, 448g

cosmology 449g

attitudes to 64–5

SWH decision to specialize in 59, 64–5

Cosmos Award for Outstanding Public Presentation of Science 399

coxing, college Boat Club 57–9

Croasdell, Judith 371–2, 440

and SWH travel 384–5

Cuban Missile Crisis 73

Cumberbatch, Benedict 365, 435

cyclic universe models 375–6

Cygnus X-1 bet 148, 150–1, 249–50

DAMTP 83, 86, 133, 134, 137, 140, 165, 193, 242, 310, 324

move to Centre for Mathematical Sciences 331–3

SWH’s daily journey to 152–3, 288–9

SWH’s office 265–9, 282–3, 331–2, 340

SWH Director of Research for CCTC 393–4

dark energy 315–16, 437–9, 449g

WMAP and 354–5

Davies, Paul C. W. 126

determinism 449g

DeWitt, Bryce, on spacetime geometry 94–5

Dicke, Robert, and CMBR 180–1

Dilbert, SWH episode 317

Dirac, Paul

Paul Dirac Centennial lecture 346–9

Paul Dirac medal 237

disabled people, SWH and

advocacy/role model 247, 271, 294–5

‘Charter for the Third Millennium on Disability’ 324

Quantum Jazzy 1400 Wheelchair 325

rights 136

student facilities 248

wheelchair access campaigns 137

Dix, Norman 59

Donne, John, elegies 73

Donohue, Bill, on misrepresenting Pope 382–3

dualities, model-dependent realism 424

Dublin, 17th International Conference on General Relativity and Gravitation 358–64

Dunn, Andrew 363

Dunn, Philip, and The Universe in a Nutshell 331

Earth-squeezing example 99, 100f5.3

Eddington, Sir Norman, balloon analogy 107–9, 216, 221, 415

Einstein, Albert 353

centenary festschrift 157

cosmological constant 256–7

E = mc2 equation 123, 237

general theory of relativity 29, 32–4, 64, 65, 95–8, 107, 449g

special theory of relativity 93, 94, 449g

on light and motion 93–8

on spacetime warping 250

Einstein Inflation Probe (NASA) 404–5

ekpyrotic model 405

electromagnetic force 21, 22, 25, 33, 36, 187, 449g

and renormalization 33

fields 213–14

interaction 449g

radiation 21, 103–4, 449–50g

electrons 20, 36–9

and wormholes 251–5

model-dependent realism 424

spin 159–60

electroweak theory 25, 450g

elementary particles see particles

Elizabeth II Queen of England 400

Ellis, George 84, 118, 147

on CMBR 181

energy

conservation 448g

dark energy 315–16, 354, 437–9, 449g

unchecked consumption dangers 316

entropy 450g

and arrows of time 297–301

and black holes 114–19, 124, 166, 178

Equalizer program 229–32, 233–5, 238–9, 325

Erhard, Werner 164–5

attic meeting 165–73, 302

escape velocity 450g

and light speed 98–105, 113, 123

eternal inflation models 284–7, 374–5, 405–8

European Space Agency, Planck satellite, CMBR observations 400–2, 406, 408

event horizons 103–5, 450g

and entropy 112–24

and negative virtual particles 121–3

area, non-decrease 112–16

horizon complementarity, Susskind on 303–6

problem 196–7

singularities without 313

thermodynamics 115–24

events 450g

extrasensory perception (ESP) 51

extraterrestrial intelligent life 367, 397–8, 435–6

Faccio, Daniele et al, Hawking radiation experiment 409–10

Fella, Judy (secretary) 153, 154, 156, 194

Ferguson, Kitty

and The Universe in a Nutshell 329–31, 333–4, 340

first Hawking book 269–70, 273, 282–3

Fermi, Enrico 20–1

Fermilab (Chicago), and Higgs boson 389

fermions 20–2, 36–9, 159, 257, 451g

Ferris, Timothy, on ‘Godmongering’ 430

Feynman, Richard 165

on photon movement 210

on reduction process 20

on renormalization 33, 406

sums-over-histories 147, 205–7, 411, 416

and information paradox 369–70

fields, fluctuations 213–14

Fitzgerald, Ella 277

Florides, Petros, at Dublin 359

Focus (periodical) 344

Fonda, Jane 444

forces of nature 451g

distinction 187

fermions 20–1, 36

unified theory 22, 25

see also electromagnetic force; gravitational force; strong nuclear force; weak nuclear force

four-dimensional space 199, 207–8, 215, 216–17

brane worlds theory 334–7

fractal 451g

universe as growing 284–4

Franklin Institute, Philadelphia 193

Freedman, Gordon, and film, A Brief History of Time 280

frequency 451g

Friedmann, Alexander, models 106–11, 110f6.1, 215, 319

assumptions 107–11

expansion/contraction 300–1

fundamental numbers 259

fundamental unified theory, inaccessibility in M theory 346–8

galaxies, receding 89–90

Galfard, Christophe, work with SWH 356–63

and George’s Secret Key to the Universe 370

and Maldacena on Susskind 357–63

and SWH’s information paradox solution 359–63, 370

Galileo 42, 353

papal apology 147, 383

Game of Life (Conway) 426–8

gamma rays 451g

Gamow, George, and CMBR 180–1

Garden for Motor Neurone Disease 400

Garner, Dwight, on The Grand Design 429–30

Gates, Bill 326

Gell-Mann, Murray 147

and SWH 229, 234

on search for unified theory 39–40

genetic engineering, SWH on 316, 343–4

Gentry, Laura (secretary) 226, 232

Geroch, Robert 106

Giacobetti, Francis 277–8

Gibbons, Gary

inflation workshop 193, 223

on SWH’s 60th 351

/> Glass, Philip

score for A Brief History of Time 292

The Voyage 292

gluons 36, 451g

spin 159–60

God, belief in 439, 442–3

and M-theory 425–6, 431–4

and no-boundary proposal 218–21

Goddard Space Flight Center, WMAP 353n

Gödel, Kurt, incompleteness theorem 346

Godwin, Joan (nurse) 287, 325, 446

Gold, Tom 63

Goldhaber, Alfred, inflation/open universe theory 319–21

Gonville and Caius College

Hall 338–9, 434, 435

West Road flat 142

Gore, Al, SWH’s TV tribute 324–5

Gourevitch, Philip, on film 281

graduate students, as SWH’s assistants 143

grandfather paradox 451g

Graves, Robert & Beryl 48

Graves, William 48

gravitational force 21, 32–4, 451g

and black holes 98–105

and brane worlds theory 334–7

and curvature 94–8, 96f5.1

and motion 91–8

and renormalization 33

Einstein on 93–7

fields, fluctuations 211–12

flatness problem 182–3, 188

matter from 253

Newton on 92–3

radius 451–2g

wave detectors 351–2

Big Bang Observer (NASA) 404

spacecraft, LISA 403–4, 404f19.2

terrestrial (LIGO) 403–4, 403f19.1

WMAP and 354–5

gravitinos 160, 161

gravitons 21, 32–3, 36, 98, 452g

supersymmetric partners 160–1

Gravity Prize Competition 80

Gravity Research Foundation Awards 111, 132

Green, Michael

Lucasian Professorship 493

on SWH’s 60th 351

Greene, Brian, on string theory 373

Gross, David, on travel with SWH 288

Guardian, SWH interview 2011 344, 442–3

Guinness Book of World Records 238–9

Guseinov, Oktay, search for black holes in binaries 148

Guth, Alan

inflation theory 184–90, 191, 194

and brane world models 372

on beginning 286

Guzzardi, Peter 236–7

Harris, Ann, and The Universe in a Nutshell 329–30

Harrison, John (clockmaker) 392

Hartle, Jim 147

and ‘Stephen Hawking’s Alternate Universe’ 366–7

and SWH, no-boundary proposal 194–5, 217, 221, 297, 319, 369–70

and Hawking radiation 127

and Hertog & SWH, on evidence from observable universe 405–8

Harwood, Michael, on SWH and Don Page 140

Hawdon, Robin, God and Stephen Hawking 318

Hawking, Edward (SWH’s brother) 44, 50, 70

Hawking, Elaine see Mason Elaine

Hawking family 372

and Spielberg film 280

at Little St Mary’s Lane 83, 131–2, 142

Caltech year 143–51

family life 131–7, 141–6, 151, 155–7, 243–4

West Road flat 142, 152–3

Hawking, Frank (SWH’s father) 42, 43–54, 66, 68–9, 76, 133, 234

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