ENTRY A0701 20041021 A061A070100000001 SUBENT A0701001 20041021 A061A070100100001 BIB 12 35 A070100100002 TITLE Yrast states of 217Fr and the onset of static intrinsicA070100100003 reflection asymmetric shapes in the light actinide A070100100004 region A070100100005 REFERENCE (J,JP/G,14,1191,1988) A070100100006 AUTHOR (M.Aiche, A.Chevallier, J.Chevallier, S.Hulne, A070100100007 S.Khazrouni, N.Schulz, J.C.Sens) A070100100008 INSTITUTE (2FR STR) Centre de recherches nucleaires et UniversiteA070100100009 Louis Pasteur. A070100100010 SAMPLE After purification, the lead was electrodeposited at aA070100100011 constant voltage on a cathode composed of a Cu foil A070100100012 covered with 10mug/cm2 of carbon. The lead was then A070100100013 protected with an evaporated carbon layer (15mug/cm2) A070100100014 and a thin collodion film. After dissolution of the A070100100015 copper backing, the target was recovered on an A070100100016 aluminium frame and placed in a shielding holder whichA070100100017 fits on the accelerator reaction chamber. A070100100018 Since the collodion evaporates under the beam, the A070100100019 final target configuration was C + Pb + C. The A070100100020 activity of the 210-Pb isotope: 0.3 GBq. A070100100021 REL-REF (N,,A.MEENS+,J,NIM/A,257,46,1987) A detailed report on A070100100022 the target preparation procedure. A070100100023 DETECTOR (GELI) A070100100024 (NAICR) Since the gamma-ray spectra observed in singlesA070100100025 were obscured by the large bremsstrahlung background A070100100026 produced by the radioactive target and by gamma rays A070100100027 arising from reactions induced on carbon, a A070100100028 multiplicity filter consisting of an array of 11 NaI A070100100029 counters was used. A070100100030 FACILITY (VDGT,2FR STR) MP Tandem van de Graaff accel erator. A070100100031 METHOD (GSPEC) A070100100032 HISTORY (20041021C) by F.Ch A070100100033 (20041021U) Last checking has been done. A070100100034 ADD-RES (STRUC) Directional correlation data. B(E1)/B(E2) A070100100035 branching ratios. A070100100036 ERR-ANALYS (DATA-ERR) Any analysis of uncertainties are not given.A070100100037 ENDBIB 35 0 A070100100038 NOCOMMON 0 0 A070100100039 ENDSUBENT 38 0 A070100199999 SUBENT A0701002 20041021 A061A070100200001 BIB 2 2 A070100200002 REACTION (82-PB-210(5-B-11,4N)87-FR-217,PAR,SIG,G,REL) A070100200003 EN-SEC (E,G) A070100200004 ENDBIB 2 0 A070100200005 NOCOMMON 0 0 A070100200006 DATA 4 17 A070100200007 EN E DATA DATA-ERR A070100200008 MEV KEV ARB-UNITS PER-CENT A070100200009 52. 341. 8.2 12. A070100200010 54. 341. 29.7 4. A070100200011 54. 373. 21.5 7. A070100200012 56. 341. 58. 2.8 A070100200013 56. 373. 40.8 4. A070100200014 58. 341. 80.5 2.4 A070100200015 58. 373. 64.9 1.5 A070100200016 60. 341. 83.3 2.8 A070100200017 60. 373. 72. 1.7 A070100200018 62. 341. 75. 4. A070100200019 62. 373. 66. 5. A070100200020 64. 341. 59.3 5. A070100200021 64. 373. 43. 7. A070100200022 66. 341. 31.9 7. A070100200023 66. 373. 28.1 9. A070100200024 68. 341. 19.5 15. A070100200025 68. 373. 18.2 16. A070100200026 ENDDATA 19 0 A070100200027 ENDSUBENT 26 0 A070100299999 SUBENT A0701003 20041021 A061A070100300001 BIB 2 2 A070100300002 REACTION (82-PB-210(5-B-11,3N)87-FR-218,PAR,SIG,G,REL) A070100300003 EN-SEC (E,G) A070100300004 ENDBIB 2 0 A070100300005 NOCOMMON 0 0 A070100300006 DATA 4 11 A070100300007 EN E DATA DATA-ERR A070100300008 MEV KEV ARB-UNITS PER-CENT A070100300009 52. 490. 5.9 10. A070100300010 54. 163. 2.7 22. A070100300011 54. 490. 12. 6. A070100300012 56. 163. 4.1 20. A070100300013 56. 490. 16.1 6. A070100300014 58. 163. 3.8 24. A070100300015 58. 490. 18.4 5. A070100300016 60. 163. 2.9 30. A070100300017 60. 490. 15.4 6. A070100300018 62. 163. 1.6 60. A070100300019 62. 490. 11. 11. A070100300020 ENDDATA 13 0 A070100300021 ENDSUBENT 20 0 A070100399999 ENDENTRY 3 0 A070199999999