Nuclear spectroscopy

406: 249:

Garrett, P. E.; Rodríguez, T. R.; Varela, A. D.; Green, K. L.; Bangay, J.; Finlay, A.; Austin RAE; Ball, G. C.; Bandyopadhyay, D. S.; Bildstein, V.; Colosimo, S.; Cross, D. S.; Demand, G. A.; Finlay, P.; Garnsworthy, A. B.; Grinyer, G. F.; Hackman, G.; Jigmeddorj, B.; Jolie, J.; Kulp, W. D.; Leach,

58:, which are the interaction of the nucleus with its interaction of its atom's electrons and their interaction with the nearest neighbor atoms as well as external fields. Nuclear spectroscopy is mainly applied to solids and liquids, rarely in gases. Its methods are important tools in 250:

K. G.; Morton, A. C.; Orce, J. N.; Pearson, C. J.; Phillips, A. A.; Radich, A. J.; Rand, E. T.; Schumaker, M. A.; Svensson, C. E.; et al. (2019-10-03). "Synopsis: Nuclear Spectroscopy Reveals New Shapes of Excited Nuclei".

312:

Th. Wichert, N. Achtziger, H. Metzner, R. Sielemann: Perturbed angular correlation. In: G. Langouche (Hrsg.): Hyperfine Interactions of Defects in Semiconductors. Elsevier, Amsterdam 1992,

35: 447: 301: 342: 334: 317: 207: 471: 120: 362:

Garibaldi, F.; Hashimoto, O.; Lerose, J. J.; Markowitz, P.; Nakamura, S. N.; Reinhold, J.; Tang, L. (2011).

146: 165: 159: 109: 259: 141: 235: 115: 476: 59: 440: 126: 421: 466: 136: 63: 375: 67: 8: 388: 363: 131: 55: 27: 379: 433: 279: 223: 199: 91: 51: 31: 338: 330: 313: 297: 283: 271: 203: 187: 383: 346: 267: 263: 195: 79: 43: 417: 460: 275: 96: 350: 413: 329:

Methods in Physical Chemistry, Rolf Schäfer, Peter C. Schmidt, Print

296:

Nuclear condensed matter physics, Günter Schatz and Alois Weidinger,

39: 82:

these methods are used to study properties of the nucleus itself.

361: 23: 405: 22:

is a superordinate concept of methods that uses properties of a

248: 47: 16:

Using nucleus properties to probe material properties

54:of the nucleus is detected. Most methods base on 458: 441: 448: 434: 387: 66:., and analysis of chemical composition ( 185: 459: 368:Journal of Physics: Conference Series 104:Methods for condensed matter studies: 46:is obtained, as an interaction of an 400: 42:from the nucleus information of the 154:Methods for trace element analysis: 86:Methods for studies of the nucleus: 13: 200:10.1016/B978-0-08-095975-7.01419-4 50:with its closest neighbours. Or a 14: 488: 404: 186:Glascock, Michael (2013-11-01). 389:10.1088/1742-6596/299/1/012013 355: 323: 306: 290: 268:10.1103/physrevlett.123.142502 242: 179: 123:(PAC, TDPAC, PAC spectroscopy) 1: 172: 121:Perturbed angular correlation 420:. You can help Knowledge by 147:Nuclear quadrupole resonance 7: 364:"Hypernuclear Spectroscopy" 166:Associated particle imaging 160:Neutron activation analysis 10: 493: 399: 110:Nuclear magnetic resonance 73: 260:American Physical Society 142:Nuclear reaction analysis 192:Treatise on Geochemistry 60:condensed matter physics 252:Physical Review Letters 416:-related article is a 188:"Nuclear Spectroscopy" 127:Muon spin spectroscopy 116:Mössbauer spectroscopy 56:hyperfine interactions 472:Scientific techniques 351:10.1002/9783527636839 64:solid state chemistry 194:. pp. 273–290. 68:analytical chemistry 20:Nuclear spectroscopy 380:2011JPhCS.299a2013G 132:Nuclear orientation 28:material properties 92:Gamma spectroscopy 52:radiation spectrum 429: 428: 484: 450: 443: 436: 408: 401: 394: 393: 391: 359: 353: 327: 321: 310: 304: 294: 288: 287: 246: 240: 239: 233: 229: 227: 219: 217: 216: 183: 492: 491: 487: 486: 485: 483: 482: 481: 477:Chemistry stubs 457: 456: 455: 454: 398: 397: 360: 356: 328: 324: 311: 307: 295: 291: 247: 243: 231: 230: 221: 220: 214: 212: 210: 184: 180: 175: 80:nuclear physics 76: 44:local structure 17: 12: 11: 5: 490: 480: 479: 474: 469: 453: 452: 445: 438: 430: 427: 426: 409: 396: 395: 354: 322: 305: 302:978-0471954798 289: 241: 232:|website= 208: 177: 176: 174: 171: 170: 169: 163: 151: 150: 144: 139: 134: 129: 124: 118: 113: 101: 100: 94: 75: 72: 15: 9: 6: 4: 3: 2: 489: 478: 475: 473: 470: 468: 465: 464: 462: 451: 446: 444: 439: 437: 432: 431: 425: 423: 419: 415: 410: 407: 403: 402: 390: 385: 381: 377: 374:(1): 012013. 373: 369: 365: 358: 352: 348: 344: 343:9783527636839 340: 336: 335:9783527327454 332: 326: 319: 318:0-444-89134-X 315: 309: 303: 299: 293: 285: 281: 277: 273: 269: 265: 261: 257: 253: 245: 237: 225: 211: 209:9780080983004 205: 201: 197: 193: 189: 182: 178: 167: 164: 161: 158: 157: 156: 155: 148: 145: 143: 140: 138: 135: 133: 130: 128: 125: 122: 119: 117: 114: 111: 108: 107: 106: 105: 98: 95: 93: 90: 89: 88: 87: 83: 81: 71: 69: 65: 61: 57: 53: 49: 45: 41: 37: 33: 29: 25: 21: 467:Spectroscopy 422:expanding it 411: 371: 367: 357: 325: 308: 292: 258:(14). U.S.: 255: 251: 244: 213:. Retrieved 191: 181: 153: 152: 103: 102: 99:spectroscopy 97:Hypernuclear 85: 84: 77: 19: 18: 461:Categories 262:: 142502. 215:2019-12-08 173:References 137:Channeling 36:absorption 414:chemistry 337:, Online 284:207934601 234:ignored ( 224:cite book 40:radiation 26:to probe 320:, S. 77. 276:31702191 32:emission 376:Bibcode 74:Methods 24:nucleus 341: 333: 316: 300: 282: 274: 206: 412:This 280:S2CID 168:(API) 162:(NAA) 149:(NQR) 112:(NMR) 30:. By 418:stub 339:ISBN 331:ISBN 314:ISBN 298:ISBN 272:PMID 236:help 204:ISBN 48:atom 384:doi 372:299 347:doi 264:doi 256:123 196:doi 78:In 70:). 38:of 34:or 463:: 382:. 370:. 366:. 345:, 278:. 270:. 254:. 228:: 226:}} 222:{{ 202:. 190:. 62:, 449:e 442:t 435:v 424:. 392:. 386:: 378:: 349:: 286:. 266:: 238:) 218:. 198::

Text is available under the Creative Commons Attribution-ShareAlike License. Additional terms may apply.

Index