ENTRY M0615 20220817 M120M061500000001 SUBENT M0615001 20220817 M120M061500100001 BIB 13 39 M061500100002 TITLE Photoabsorption on nuclei in the energy range 0.5 - M061500100003 2.6 GeV. M061500100004 AUTHOR (V.Muccifora,N.Bianchi,A.Deppman,E.De Sanctis, M061500100005 M.Mirazita,E.Polli,P.Rossi,R.Burgwinkel,J.Hannappel, M061500100006 F.Klein,D.Menze,W.J.Schwille,F.Wehnes) M061500100007 REFERENCE (J,PR/C,60,064616,1999) M061500100008 INSTITUTE (2ITYFRA),2GERBON) M061500100009 FACILITY (LINAC,2GERBON) ELSA accelerator. M061500100010 INC-SOURCE (TAGD) SAPHIR tagged photon beam. M061500100011 SAMPLE Solid targets of C (3.450 (0.003) g/cm**2), Al (2.399 M061500100012 (0.004) g/cm**2), Cu (1.909 (0.013) g/cm**2), Sn M061500100013 (1.531 (0.011) g/cm**2), and Pb (1.240(0.016) g/cm**2)M061500100014 DETECTOR (GLASD) The lead glass shower detector consisted of a M061500100015 dense SF6 lead glass cylinder, 30 cm long and 12 cm M061500100016 in diameter. M061500100017 METHOD Photohadronic method consists in measuring the M061500100018 photoproduction yield of hadronic events with a large M061500100019 solid angle detector, rejecting the vastly M061500100020 preponderant electromagnetic events by a separation M061500100021 using a forward angle shower detector. M061500100022 ANALYSIS Direct measurement. M061500100023 ERR-ANALYS (ERR-S) Statistical errors. M061500100024 COMMENT The energy and nuclear mass dependences of the total M061500100025 hadronic cross section in the energy range 0.5 - 2.6 M061500100026 GeV have been measured at Bonn using the SAPHIR M061500100027 tagged photon beam. The measurement, performed on C, M061500100028 Al, Cu, Sn, and Pb, provides the first M061500100029 photoabsorption data in the region 1.2 - 1.7 GeV. The M061500100030 results show the significant reduction of the M061500100031 photoabsorption strength on the bound nucleon M061500100032 compared to the free-nucleon compared to the M061500100033 free-nucleon case in whole energy region. Above 1.2 M061500100034 GeV this reduction decreases with the average nuclear M061500100035 density. M061500100036 HISTORY (20010125C) Data were compiled at the Russia MSU SINP M061500100037 CDFE by V.Varlamov. M061500100038 (20160202A) Corrected by V.Varlamov: INC-SOURCE, M061500100039 ERR-ANALYS, REACTION, lowercase. M061500100040 (20220817A) Corrected by VV and SD: REACTION, STATUS. M061500100041 ENDBIB 39 0 M061500100042 NOCOMMON 0 0 M061500100043 ENDSUBENT 42 0 M061500199999 SUBENT M0615002 20220817 M120M061500200001 BIB 3 8 M061500200002 REACTION (6-C-0(G,ABS),,SIG,,DMN) M061500200003 Reaction cross section was multiplied by 1/A. M061500200004 STATUS (TABLE) Data from Table III of M061500200005 Phys.Rev.,C60(1999)064616. M061500200006 HISTORY (20160202A) Corrected by V.Varlamov: ERR-S, M061500200007 SF8 = FCT -> DAM in REACTION. M061500200008 (20220817A) Corrected by VV sand SD: SF8=DAM -> DMN in M061500200009 REACTION, STATUS. M061500200010 ENDBIB 8 0 M061500200011 NOCOMMON 0 0 M061500200012 DATA 3 19 M061500200013 EN DATA ERR-S M061500200014 MEV MICRO-B MICRO-B M061500200015 530. 229. 3. M061500200016 630. 197. 3. M061500200017 730. 192. 1. M061500200018 870. 170. 1. M061500200019 930. 169. 2. M061500200020 1070. 150. 1. M061500200021 1190. 139. 2. M061500200022 1320. 134. 1. M061500200023 1430. 126. 2. M061500200024 1540. 123. 1. M061500200025 1700. 121. 2. M061500200026 1830. 112. 2. M061500200027 1960. 114. 2. M061500200028 2060. 114. 3. M061500200029 2180. 116. 4. M061500200030 2280. 114. 4. M061500200031 2390. 111. 4. M061500200032 2500. 122. 5. M061500200033 2590. 109. 5. M061500200034 ENDDATA 21 0 M061500200035 ENDSUBENT 34 0 M061500299999 SUBENT M0615003 20220817 M120M061500300001 BIB 3 8 M061500300002 REACTION (13-AL-27(G,ABS),,SIG,,DMN) M061500300003 Reaction cross section was multiplied by 1/A. M061500300004 STATUS (TABLE) Data from Table III of M061500300005 Phys.Rev.,C60(1999)064616. M061500300006 HISTORY (20160202A) Corrected by V.Varlamov: ERR-S, M061500300007 SF8 = FCT -> DAM in REACTION. M061500300008 (20220817A) Corrected VV and SD: SF8=DAM -> DMN in M061500300009 REACTION, STATUS. M061500300010 ENDBIB 8 0 M061500300011 NOCOMMON 0 0 M061500300012 DATA 3 19 M061500300013 EN DATA ERR-S M061500300014 MEV MICRO-B MICRO-B M061500300015 530. 240. 3. M061500300016 630. 211. 3. M061500300017 730. 195. 2. M061500300018 870. 170. 2. M061500300019 930. 161. 3. M061500300020 1070. 148. 2. M061500300021 1190. 134. 3. M061500300022 1320. 132. 2. M061500300023 1430. 126. 3. M061500300024 1540. 125. 2. M061500300025 1700. 120. 3. M061500300026 1830. 121. 3. M061500300027 1960. 112. 3. M061500300028 2060. 121. 5. M061500300029 2180. 110. 5. M061500300030 2280. 100. 6. M061500300031 2390. 98. 5. M061500300032 2500. 102. 7. M061500300033 2590. 112. 7. M061500300034 ENDDATA 21 0 M061500300035 ENDSUBENT 34 0 M061500399999 SUBENT M0615004 20220817 M120M061500400001 BIB 3 8 M061500400002 REACTION (29-CU-0(G,ABS),,SIG,,DMN) M061500400003 Reaction cross section was multiplied by 1/A. M061500400004 STATUS (TABLE) Data from Table III of M061500400005 Phys.Rev.,C60(1999)064616. M061500400006 HISTORY (20160202A) Corrected by V.Varlamov: ERR-S, M061500400007 SF8 = FCT -> DAM in REACTION. M061500400008 (20220817A) Corrected VV and SD: SF8=DAM -> DMN in M061500400009 REACTION? STATUS. M061500400010 ENDBIB 8 0 M061500400011 NOCOMMON 0 0 M061500400012 DATA 3 19 M061500400013 EN DATA ERR-S M061500400014 MEV MICRO-B MICRO-B M061500400015 530. 244. 4. M061500400016 630. 208. 4. M061500400017 730. 195. 3. M061500400018 870. 176. 2. M061500400019 930. 169. 2. M061500400020 1070. 153. 2. M061500400021 1190. 142. 3. M061500400022 1320. 136. 2. M061500400023 1430. 134. 4. M061500400024 1540. 134. 2. M061500400025 1700. 126. 3. M061500400026 1830. 122. 3. M061500400027 1960. 118. 4. M061500400028 2060. 112. 5. M061500400029 2180. 114. 5. M061500400030 2280. 115. 6. M061500400031 2390. 107. 6. M061500400032 2500. 117. 7. M061500400033 2590. 101. 7. M061500400034 ENDDATA 21 0 M061500400035 ENDSUBENT 34 0 M061500499999 SUBENT M0615005 20220817 M120M061500500001 BIB 3 8 M061500500002 REACTION (50-SN-0(G,ABS),,SIG,,DMN) M061500500003 Reaction cross section was multiplied by 1/A. M061500500004 STATUS (TABLE) Data from Table III of M061500500005 Phys.Rev.,C60(1999)064616. M061500500006 HISTORY (20160202A) Corrected by V.Varlamov: ERR-S, M061500500007 SF8 = FCT -> DAM in REACTION. M061500500008 (20220817A) Corrected by VV and SD: SF8=DAM -> DMN in M061500500009 REACTION, STATUS. M061500500010 ENDBIB 8 0 M061500500011 NOCOMMON 0 0 M061500500012 DATA 3 19 M061500500013 EN DATA ERR-S M061500500014 MEV MICRO-B MICRO-B M061500500015 530. 256. 4. M061500500016 630. 215. 4. M061500500017 730. 199. 2. M061500500018 870. 174. 3. M061500500019 930. 171. 3. M061500500020 1070. 152. 2. M061500500021 1190. 145. 3. M061500500022 1320. 136. 3. M061500500023 1430. 137. 5. M061500500024 1540. 134. 3. M061500500025 1700. 118. 4. M061500500026 1830. 119. 4. M061500500027 1960. 116. 4. M061500500028 2060. 116. 6. M061500500029 2180. 122. 6. M061500500030 2280. 108. 7. M061500500031 2390. 101. 7. M061500500032 2500. 112. 8. M061500500033 2590. 118. 9. M061500500034 ENDDATA 21 0 M061500500035 ENDSUBENT 34 0 M061500599999 SUBENT M0615006 20220817 M120M061500600001 BIB 3 8 M061500600002 REACTION (82-PB-0(G,ABS),,SIG,,DMN) M061500600003 Reaction cross section was multiplied by 1/A. M061500600004 STATUS (TABLE) Data from Table III of M061500600005 Phys.Rev.,C60(1999)064616. M061500600006 HISTORY (20160202A) Corrected by V.Varlamov: ERR-S, M061500600007 SF8 = FCT -> DAM in REACTION. M061500600008 (20220817A) Corrected by VV and SD: SF8=DAM -> DMN in M061500600009 REACTION, STATUS. M061500600010 ENDBIB 8 0 M061500600011 NOCOMMON 0 0 M061500600012 DATA 3 19 M061500600013 EN DATA ERR-S M061500600014 MEV MICRO-B MICRO-B M061500600015 530. 271. 4. M061500600016 630. 213. 5. M061500600017 730. 180. 3. M061500600018 870. 160. 3. M061500600019 930. 154. 3. M061500600020 1070. 142. 2. M061500600021 1190. 134. 3. M061500600022 1320. 133. 3. M061500600023 1430. 133. 5. M061500600024 1540. 132. 3. M061500600025 1700. 130. 4. M061500600026 1830. 122. 4. M061500600027 1960. 119. 5. M061500600028 2060. 110. 6. M061500600029 2180. 119. 7. M061500600030 2280. 107. 8. M061500600031 2390. 109. 8. M061500600032 2500. 122. 9. M061500600033 2590. 124. 10. M061500600034 ENDDATA 21 0 M061500600035 ENDSUBENT 34 0 M061500699999 ENDENTRY 6 0 M061599999999