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Line 6: == History and development == [[File:Koinzidenzdetector.png\|thumb\|right\|Coincidence measurement in simplified depiction.]] PAC goes back to a theoretical work by Donald R. Hamilton <ref>{{cite journal \| last=Hamilton \| first=Donald R. \| title=On Directional Correlation of Successive Quanta \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=58 \| issue=2 \| date=1940-07-15 \| issn=0031-899X \| doi=10.1103/physrev.58.122 \| pages=122–131\| bibcode=1940PhRv...58..122H }}</ref> from 1940. The first successful experiment was carried out by Brady and Deutsch <ref>{{cite journal \| last1=Brady \| first1=Edward L. \| last2=Deutsch \| first2=Martin \| title=Angular Correlation of Successive Gamma-Ray Quanta \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=72 \| issue=9 \| date=1947-11-01 \| issn=0031-899X \| doi=10.1103/physrev.72.870 \| pages=870–871\| bibcode=1947PhRv...72..870B }}</ref> in 1947. Essentially spin and parity of nuclear spins were investigated in these first PAC experiments. However, it was recognized early on that electric and magnetic fields interact with the nuclear moment,<ref>{{cite journal \| last1=Aeppli \| first1=H. \| last2=Bishop \| first2=A. S. \| last3=Frauenfelder \| first3=H. \| last4=Walter \| first4=M. \| last5=Zünti \| first5=W. \| title=Influence of the Atomic Shell on Nuclear Angular Correlation in Cd<sup>111</sup> \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=82 \| issue=4 \| date=1951-05-15 \| issn=0031-899X \| doi=10.1103/physrev.82.550 \| pages=550\| bibcode=1951PhRv...82..550A }}</ref> providing the basis for a new form of material investigation: nuclear solid-state spectroscopy. Step by step the theory was developed.<ref>{{cite journal \| last=Gardner \| first=J W \| title=Directional Correlation between Successive Internal-Conversion Electrons \| journal=Proceedings of the Physical Society. Section A \| publisher=IOP Publishing \| volume=62 \| issue=12 \| date=1949-12-01 \| issn=0370-1298 \| doi=10.1088/0370-1298/62/12/302 \| pages=763–779\| bibcode=1949PPSA...62..763G }}</ref><ref>{{cite journal \| last1=Ling \| first1=Daniel S. \| last2=Falkoff \| first2=David L. \| title=Interference Effects in Gamma-Gamma Angular Correlations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=76 \| issue=11 \| date=1949-12-01 \| issn=0031-899X \| doi=10.1103/physrev.76.1639 \| pages=1639–1648\| bibcode=1949PhRv...76.1639L }}</ref><ref>{{cite journal\|first=M. \|last=Fierz\|journal= Helvetica Physica Acta\|volume=22\|year=1949\|issue=4\|page=489\|title=Zur Theorie der Multipolstrahlung\|url=https://www.e-periodica.ch/digbib/view?pid=hpa-001:1949:22#499\|language=de}}</ref><ref>J.A. Spiers, Nat. Res. Council Canada, Publ. No. 1925 (1950)</ref><ref>{{cite journal \| last=Spiers \| first=J. A. \| title=On the Directional Correlation of Successive Nuclear Radiations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=80 \| issue=3 \| date=1950-11-01 \| issn=0031-899X \| doi=10.1103/physrev.80.491 \| pages=491\| bibcode=1950PhRv...80..491S }}</ref><ref>{{cite journal \| last1=Falkoff \| first1=David L. \| last2=Uhlenbeck \| first2=G. E. \| title=On the Directional Correlation of Successive Nuclear Radiations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=79 \| issue=2 \| date=1950-07-15 \| issn=0031-899X \| doi=10.1103/physrev.79.323 \| pages=323–333\| bibcode=1950PhRv...79..323F }}</ref><ref>{{cite journal \| last=Racah \| first=Giulio \| title=Directional Correlation of Successive Nuclear Radiations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=84 \| issue=5 \| date=1951-12-01 \| issn=0031-899X \| doi=10.1103/physrev.84.910 \| pages=910–912\| bibcode=1951PhRv...84..910R }}</ref><ref>U. Fano, Nat'l. Bureau of Standards Report 1214</ref><ref>{{cite journal \| last=Fano \| first=U. \| title=Geometrical Characterization of Nuclear States and the Theory of Angular Correlations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=90 \| issue=4 \| date=1953-05-15 \| issn=0031-899X \| doi=10.1103/physrev.90.577 \| pages=577–579\| bibcode=1953PhRv...90..577F }}</ref><ref>{{cite journal \| last=Lloyd \| first=Stuart P. \| title=The Angular Correlation of Two Successive Nuclear Radiations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=85 \| issue=5 \| date=1952-03-01 \| issn=0031-899X \| doi=10.1103/physrev.85.904 \| pages=904–911\| bibcode=1952PhRv...85..904L }}</ref><ref>{{cite journal\|first=K. \|last=Adler\|journal=Helvetica Physica Acta\|volume=25\|year=1952\|issue=3\|page=235\|title=Beiträge zur Theorie der Richtungskorrelation\|url=https://www.e-periodica.ch/digbib/view?pid=hpa-001:1952:25#237\|language=de}}</ref><ref>{{cite journal \| last=De Groot \| first=S.R. \| title=On the theories of angular distribution and correlation of beta and gamma radiation \| journal=Physica \| publisher=Elsevier BV \| volume=18 \| issue=12 \| year=1952 \| issn=0031-8914 \| doi=10.1016/s0031-8914(52)80196-x \| pages=1201–1214\| bibcode=1952Phy....18.1201D }}</ref><ref>F. Coester, J.M. Jauch, Helv. Phys. Acta 26 (1953) 3.</ref><ref>{{cite journal \| last1=Biedenharn \| first1=L. C. \| last2=Rose \| first2=M. E. \| title=Theory of Angular Correlation of Nuclear Radiations \| journal=Reviews of Modern Physics \| publisher=American Physical Society (APS) \| volume=25 \| issue=3 \| date=1953-07-01 \| issn=0034-6861 \| doi=10.1103/revmodphys.25.729 \| pages=729–777\| bibcode=1953RvMP...25..729B }}</ref> After Abragam and Pound <ref>{{cite journal \| last1=Abragam \| first1=A. \| last2=Pound \| first2=R. V. \| title=Influence of Electric and Magnetic Fields on Angular Correlations \| journal=Physical Review \| publisher=American Physical Society (APS) \| volume=92 \| issue=4 \| date=1953-11-15 \| issn=0031-899X \| doi=10.1103/physrev.92.943 \| pages=943–962\| bibcode=1953PhRv...92..943A }}</ref> published their work on the theory of PAC in 1953 including extra nuclear fields, many studies with PAC were carried out afterwards. In the 1960s and 1970s, interest in PAC experiments sharply increased, focusing mainly on magnetic and electric fields in crystals into which the probe nuclei were introduced. In the mid-1960s, ion implantation was discovered, providing new opportunities for sample preparation. The rapid electronic development of the 1970s brought significant improvements in signal processing. From the 1980s to the present, PAC has emerged as an important method for the study and characterization of materials,<ref>Th. Wichert, E. Recknagel: Perturbed Angular Correlation. In: Ulrich Gonser (Hrsg.): Microscopic Methods in Metals (= Topics in Current Physics. Band 40). Springer, Berlin/Heidelberg 1986, {{ISBN\|978-3-642-46571-0}}, S. 317–364, doi:10.1007/978-3-642-46571-0_11</ref><ref>{{cite journal \| last1=Collins \| first1=Gary S. \| last2=Shropshire \| first2=Steven L. \| last3=Fan \| first3=Jiawen \| title=Perturbed γ−γ angular correlations: A spectroscopy for point defects in metals and alloys \| journal=Hyperfine Interactions \| publisher=Springer Science and Business Media LLC \| volume=62 \| issue=1–2 \| year=1990 \| issn=0304-3843 \| doi=10.1007/bf02407659 \| pages=1–34\| s2cid=94593348 }}</ref><ref>Th. Wichert, N. Achziger, H. Metzner, R. Sielemann: Perturbed angular correlation. In: G. Langouche (Hrsg.): Hyperfine Interactions of Defects in Semiconductors. Elsevier, Amsterdam 1992, {{ISBN\|0-444-89134-X}}, S. 77</ref><ref>Jens Röder, Klaus-dieter Becker: Perturbed γ–γ Angular Correlation. In: Methods in Physical Chemistry. John Wiley & Sons, Ltd, 2012, {{ISBN\|978-3-527-32745-4}}, S. 325–349, doi:10.1002/9783527636839.ch10</ref><ref>Günter Schatz, Alois Weidinger, Manfred Deicher: Nukleare Festkörperphysik: Kernphysikalische Messmethoden und ihre Anwendungen. 4. Auflage. Vieweg+Teubner Verlag, 2010, {{ISBN\|978-3-8351-0228-6}}</ref> e.g. for the study of semiconductor materials, intermetallic compounds, surfaces and interfaces, and a number of applications have also appeared in biochemistry.<ref>{{cite journal \| last1=Hemmingsen \| first1=Lars \| last2=Sas \| first2=Klára Nárcisz \| last3=Danielsen \| first3=Eva \| title=Biological Applications of Perturbed Angular Correlations of γ-Ray Spectroscopy \| journal=Chemical Reviews \| publisher=American Chemical Society (ACS) \| volume=104 \| issue=9 \| year=2004 \| issn=0009-2665 \| doi=10.1021/cr030030v \| pages=4027–4062\| pmid=15352785 }}</ref> While until about 2008 PAC instruments used conventional high-frequency electronics of the 1970s, in 2008 Christian Herden and Jens Röder et al. developed the first fully digitized PAC instrument that enables extensive data analysis and parallel use of multiple probes.<ref>{{cite journal \| last1=Herden \| first1=C. \| last2=Röder \| first2=J. \| last3=Gardner \| first3=J.A. \| last4=Becker \| first4=K.D. \| title=Fully digital time differential perturbed angular correlation (TDPAC) spectrometer \| journal=Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment \| publisher=Elsevier BV \| volume=594 \| issue=2 \| year=2008 \| issn=0168-9002 \| doi=10.1016/j.nima.2008.05.001 \| pages=155–161\| bibcode=2008NIMPA.594..155H }}</ref> Replicas and further developments followed.<ref>{{cite journal \| last1=Nagl \| first1=Matthias \| last2=Vetter \| first2=Ulrich \| last3=Uhrmacher \| first3=Michael \| last4=Hofsäss \| first4=Hans \| title=A new all-digital time differential γ-γ angular correlation spectrometer \| journal=Review of Scientific Instruments \| publisher=AIP Publishing \| volume=81 \| issue=7 \| year=2010 \| pages=073501–073501–9 \| issn=0034-6748 \| doi=10.1063/1.3455186 \| pmid=20687716 \| bibcode=2010RScI...81g3501N }}</ref><ref>{{cite journal \| last1=Jäger \| first1=M. \| last2=Iwig \| first2=K. \| last3=Butz \| first3=T. \| title=A user-friendly fully digital TDPAC-spectrometer \| journal=Hyperfine Interactions \| publisher=Springer Science and Business Media LLC \| volume=198 \| issue=1–3 \| year=2010 \| issn=0304-3843 \| doi=10.1007/s10751-010-0201-8 \| pages=167–172\| bibcode=2010HyInt.198..167J \| s2cid=17531166 \| url=http://ul.qucosa.de/id/qucosa%3A33061 }}</ref>

Perturbed angular correlation: Difference between revisions