Nuclear Mass Measurement and Evaluation

WANG Meng

doi:10.11804/NuclPhysRev.34.03.380

Volume 34 Issue 3

Jul. 2017

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Article Navigation > Nuclear Physics Review > 2017 > 34(3): 380-386

WANG Meng. Nuclear Mass Measurement and Evaluation[J]. Nuclear Physics Review, 2017, 34(3): 380-386. doi: 10.11804/NuclPhysRev.34.03.380

Citation:

WANG Meng. Nuclear Mass Measurement and Evaluation[J]. Nuclear Physics Review, 2017, 34(3): 380-386. doi: 10.11804/NuclPhysRev.34.03.380

Nuclear Mass Measurement and Evaluation

doi: 10.11804/NuclPhysRev.34.03.380

WANG Meng

Key Laboratory of High Precision Nuclear Spectroscopy and Center for Nuclear Matter Science, Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

Funds: National Key R&D Program of China (2016YFA0400504)

Received Date: 2017-07-06
Rev Recd Date: 2017-08-30
Publish Date: 2017-07-18

Abstract

Mass is a fundamental property of the atomic nucleus. Nuclear mass data play an important role in nuclear physics and nuclear astrophysics. Thanks to the developments of novel mass spectrometers and radioactive nuclear beam facilities, the experimental knowledge of nuclear masses has been continuously expanding along two main directions, including:measurements aimed at high-precision mass values and at the most exotic nuclei far from the stability. The latest progress are reviewed in the paper. In the past few years, mass measurements of short-lived nuclides were performed using isochronous mass spectrometry based on the Cooler Storage Ring at the Heavy Ion Research Facility in Lanzhou(HIRFL-CSR). The progresses on the frontiers of short half-life and high precision are introduced. The Atomic Mass Evaluation (AME) is the most reliable source for the comprehensive information related to the atomic (nuclear) masses. The latest version of the AME, i.e., AME2016, was published in March, 2017, serving the research community with the benchmark data.
- nuclear mass measurement,
- short-lived radioactive nuclides,
- atomic mass evaluation,
- Correlations

References

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[2]	BLAUM K. Phys Rep, 2006, 425:1.
[3]	MARTIN D, ACRONES A, NAZAREWICZ W, OLSEN E. Phys Rev Lett, 2016, 116:121101.
[4]	MUMPOWER M R, SURMAN R, MCLAUGHLIN G C, et al. Progress in Particle and Nuclear Physics, 2016, 86:86.
[5]	THOMSON J J. Proceedings of the Royal Society A, 1913, 89:1.
[6]	ASTON F W. Nature, 1920, 105:617.
[7]	WAMERS F, MARGANIEC J, AKSOUTH F et al. Phys Rev Lett, 2014, 112:132502.
[8]	SPYROU A, KOHLEY Z, BAUMANN T, et al. Phys Rev Lett, 2012, 108:102501.
[9]	MYERS E G, WAGNER A, KRACKE H, et al. Phys Rev Lett, 2015, 114:013003.
[10]	RAINVILLE S, THOMPSON J K, PRITCHARD D E. Science, 2004, 303:334.
[11]	ERLER J, BIRGE N, KORTELAINEN M, et al. Nature, 2012, 486:509.
[12]	KLAPISCH R, PRIEELS R, THIBAULT C, et al. Phys Rev Lett, 1973, 31:118.
[13]	HUANG W J, AUDI G, WANG M, et al. Chinese Physics C, 2017, 41:030002.
[14]	WANG M, AUDI G, WAPSTRA A H, et al. Chinese Physics C, 2012, 36:1603.
[15]	WANG N, LIU M, WU X Z, et al. Phys Lett B, 2014, 734:215.
[16]	GAUDEFROY L, MITTIG W, ORR N A, et al. Phys Rev Lett, 2012, 109:202503.
[17]	MEISEL Z, GEORGE S, AHN S, et al. Phys Rev Lett, 2015, 114:022501
[18]	MEISEL Z, GEORGE S, AHN S, et al. Phys Rev Lett, 2015, 115:162501.
[19]	WU J, NISHIMURA S, LORUSSO G, et al. Phys Rev Lett, 2017, 118:0722701.
[20]	ROSENBUSCH M, ASCHER P, ATANASOV D, et al. Phys Rev Lett, 2015, 114:202501.
[21]	WIENHOLTZ F, BECK D, BLAUM K, et al. Nature, 2013, 498:346.
[22]	ATANASOV D, ASCHER P, BLAUM K, et al. Phys Rev Lett, 2015, 115:232501.
[23]	ITO Y, SCHURY P, WADA M, et al. Phys Rev C, 2013, 88:011306.
[24]	SCHURY P, WADA M, ITO Y, et al. Phys Rev C, 2017, 95:011305.
[25]	DICKEL T, PLASS W R, AYET SAN ANDRES S, et al. Phys Lett B, 2013, 744:137.
[26]	KREIM S, ATANASOV D, BECK D, et al. Nucl Instr Meth B, 2013, 317:492.
[27]	BLOCK M. Nucl Phys A, 2015, 944:471.
[28]	KETELAER J, BLAUM K, BLOCK M, et al. Eur Phys J A, 2009, 42:311.
[29]	ERONEN T, KOLHINEN V S, ELOMAA V V, et al. Eur Phys J A, 2012, 48:46.
[30]	SAVARD G, WANG J C, SHARMA K S, et al. International Journal of Mass Spectrometry, 2006, 251:252.
[31]	RINGLE R, SCHWARZ S, BOLLEN G, International Journal of Mass Spectrometry, 2013, 349-350:87.
[32]	KWIATKOWSKI A A, ANDREOIU C, BALE J C, et al. Hyperfine Interactions, 2014, 225:143.
[33]	MINAYA-RAMIREZ E, ACKERMANN D, BLAUM K, et al. Science, 2012, 337:1207.
[34]	GEORGE S, BARUAH S, BLANK B, et al. Phys Rev Lett, 2007, 98:162501.
[35]	ETTENAUER S, SIMON M C, GALLANT A T, et al. Phys Rev Lett, 2011, 107:272501.
[36]	ELISEEV S, BLAUM K, BLOCK M, et al. Phys Rev Lett, 2013, 110:082501.
[37]	LITVINOV YU A, GEISSEL H, RADON T, et al. Nucl Phys A, 2005, 756:3.
[38]	CHEN L, WALKER P M, GEISSEL H, et al. Phys Rev Lett, 2013, 110:122502.
[39]	CHEN L, PLASS WR, GEISSEL H, et al. Nucl Phys A, 2012, 882:71.
[40]	SHUBINA D, CAKIRLI R B, LITVINOV YU A, et al. Phys Rev C, 2013, 88:024310.
[41]	SUN B, KNOBEL R, LITVINOV YU A, et al. Nucl Phys A, 2008, 812:1.
[42]	KNOBEL R, DIWISCH M, GEISSEL H, et al. Eur Phys J A, 2016, 52:138
[43]	ZHANG Yuhu, WANG Meng, LITVINOV YU A, et al. Nuclear Physics Review, 2016, 33:122.
[44]	XU X, ZHANG P, SHUAI P, et al. Phys Rev Lett, 2016, 117:182503.
[45]	ZHANG P, XU X, SHUAI P, et al. Physics Letters B, 2017, 767:20.
[46]	ZENG Qi, WANG Meng, ZHANG Yuhu, et al. Nuclear Physics Review, 2016, 34(3):414. doi:10.11804/NuclPhysRev.34.03.414. (in Chinese) (曾奇, 王猛, 张玉虎, 等. 原子核物理评论, 2017, 34(3):414.)
[47]	XING Y M, WANG M, ZHANG Y H, et al. Physica Scripta T, 2015, 166:014010.
[48]	ZHANG W, TU X L, WANG M, et al. Nucl Instr Meth A, 2014, 756:1.
[49]	AUDI G. International Journal of Mass Spectrometry, 2006, 251:85.
[50]	AUDI G, BLAUM K, BLOCK M, et al. At Data Nucl Data Tables, 2015, 103-104:1.
[51]	http://amdc.impcas.ac.cn
[52]	MOHR P J, TAYLOR B N, NEWELL D B Reviews of Modern Physics, 2008, 80:633.
[53]	NAGY S Z, FRITIOFF T, BJORKHAGE M, et al. Euro Phys Lett, 2006, 74(3):404.
[54]	WANG M, AUDI G, PFEIFFER B, et al. J Phys:Conf Ser, 2011, 312:092064.
[55]	MOHR P J, TAYLOR B N, NEWELL D B. Reviews of Modern Physics, 2012, 84:1527.
[56]	SUMIKAMA T, NISHIMURA S, BABA H, et al. Phys Rev C, 2017, 95:051601.
[57]	CELIKOVIC I, LEWITOWICZ M, GERNHAUSER R, et al. Phys Rev Lett, 2016, 116:162501.
[58]	YAMAGUCHI T. Physica Scripta T, 2015, 166:014039.
[59]	LI Cheng, ZHANG Fan, LI Jingjing, et al. Phys Rev C, 2016, 93:014618.
[60]	KIMURA S, ISHIYAMA H, MIYATAKE H, et al. Nucl Instr Meth B, 2016, 376:338.

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通讯作者: 陈斌, bchen63@163.com

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Nuclear Mass Measurement and Evaluation

Key Laboratory of High Precision Nuclear Spectroscopy and Center for Nuclear Matter Science, Institute of Modern Physics, Chinese Academy of Sciences, Lanzhou 730000, China

Funds: National Key R&D Program of China (2016YFA0400504)

Received Date: 2017-07-06

Rev Recd Date: 2017-08-30

Publish Date: 2017-07-18

Key words:

Abstract: Mass is a fundamental property of the atomic nucleus. Nuclear mass data play an important role in nuclear physics and nuclear astrophysics. Thanks to the developments of novel mass spectrometers and radioactive nuclear beam facilities, the experimental knowledge of nuclear masses has been continuously expanding along two main directions, including:measurements aimed at high-precision mass values and at the most exotic nuclei far from the stability. The latest progress are reviewed in the paper. In the past few years, mass measurements of short-lived nuclides were performed using isochronous mass spectrometry based on the Cooler Storage Ring at the Heavy Ion Research Facility in Lanzhou(HIRFL-CSR). The progresses on the frontiers of short half-life and high precision are introduced. The Atomic Mass Evaluation (AME) is the most reliable source for the comprehensive information related to the atomic (nuclear) masses. The latest version of the AME, i.e., AME2016, was published in March, 2017, serving the research community with the benchmark data.

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Reference (60)

[1]	LUNNEY D, PEARSON J M, THIBULT C. Reviews of Modern Physics, 2003, 75:1021.
[2]	BLAUM K. Phys Rep, 2006, 425:1.
[3]	MARTIN D, ACRONES A, NAZAREWICZ W, OLSEN E. Phys Rev Lett, 2016, 116:121101.
[4]	MUMPOWER M R, SURMAN R, MCLAUGHLIN G C, et al. Progress in Particle and Nuclear Physics, 2016, 86:86.
[5]	THOMSON J J. Proceedings of the Royal Society A, 1913, 89:1.
[6]	ASTON F W. Nature, 1920, 105:617.
[7]	WAMERS F, MARGANIEC J, AKSOUTH F et al. Phys Rev Lett, 2014, 112:132502.
[8]	SPYROU A, KOHLEY Z, BAUMANN T, et al. Phys Rev Lett, 2012, 108:102501.
[9]	MYERS E G, WAGNER A, KRACKE H, et al. Phys Rev Lett, 2015, 114:013003.
[10]	RAINVILLE S, THOMPSON J K, PRITCHARD D E. Science, 2004, 303:334.
[11]	ERLER J, BIRGE N, KORTELAINEN M, et al. Nature, 2012, 486:509.
[12]	KLAPISCH R, PRIEELS R, THIBAULT C, et al. Phys Rev Lett, 1973, 31:118.
[13]	HUANG W J, AUDI G, WANG M, et al. Chinese Physics C, 2017, 41:030002.
[14]	WANG M, AUDI G, WAPSTRA A H, et al. Chinese Physics C, 2012, 36:1603.
[15]	WANG N, LIU M, WU X Z, et al. Phys Lett B, 2014, 734:215.
[16]	GAUDEFROY L, MITTIG W, ORR N A, et al. Phys Rev Lett, 2012, 109:202503.
[17]	MEISEL Z, GEORGE S, AHN S, et al. Phys Rev Lett, 2015, 114:022501
[18]	MEISEL Z, GEORGE S, AHN S, et al. Phys Rev Lett, 2015, 115:162501.
[19]	WU J, NISHIMURA S, LORUSSO G, et al. Phys Rev Lett, 2017, 118:0722701.
[20]	ROSENBUSCH M, ASCHER P, ATANASOV D, et al. Phys Rev Lett, 2015, 114:202501.
[21]	WIENHOLTZ F, BECK D, BLAUM K, et al. Nature, 2013, 498:346.
[22]	ATANASOV D, ASCHER P, BLAUM K, et al. Phys Rev Lett, 2015, 115:232501.
[23]	ITO Y, SCHURY P, WADA M, et al. Phys Rev C, 2013, 88:011306.
[24]	SCHURY P, WADA M, ITO Y, et al. Phys Rev C, 2017, 95:011305.
[25]	DICKEL T, PLASS W R, AYET SAN ANDRES S, et al. Phys Lett B, 2013, 744:137.
[26]	KREIM S, ATANASOV D, BECK D, et al. Nucl Instr Meth B, 2013, 317:492.
[27]	BLOCK M. Nucl Phys A, 2015, 944:471.
[28]	KETELAER J, BLAUM K, BLOCK M, et al. Eur Phys J A, 2009, 42:311.
[29]	ERONEN T, KOLHINEN V S, ELOMAA V V, et al. Eur Phys J A, 2012, 48:46.
[30]	SAVARD G, WANG J C, SHARMA K S, et al. International Journal of Mass Spectrometry, 2006, 251:252.
[31]	RINGLE R, SCHWARZ S, BOLLEN G, International Journal of Mass Spectrometry, 2013, 349-350:87.
[32]	KWIATKOWSKI A A, ANDREOIU C, BALE J C, et al. Hyperfine Interactions, 2014, 225:143.
[33]	MINAYA-RAMIREZ E, ACKERMANN D, BLAUM K, et al. Science, 2012, 337:1207.
[34]	GEORGE S, BARUAH S, BLANK B, et al. Phys Rev Lett, 2007, 98:162501.
[35]	ETTENAUER S, SIMON M C, GALLANT A T, et al. Phys Rev Lett, 2011, 107:272501.
[36]	ELISEEV S, BLAUM K, BLOCK M, et al. Phys Rev Lett, 2013, 110:082501.
[37]	LITVINOV YU A, GEISSEL H, RADON T, et al. Nucl Phys A, 2005, 756:3.
[38]	CHEN L, WALKER P M, GEISSEL H, et al. Phys Rev Lett, 2013, 110:122502.
[39]	CHEN L, PLASS WR, GEISSEL H, et al. Nucl Phys A, 2012, 882:71.
[40]	SHUBINA D, CAKIRLI R B, LITVINOV YU A, et al. Phys Rev C, 2013, 88:024310.
[41]	SUN B, KNOBEL R, LITVINOV YU A, et al. Nucl Phys A, 2008, 812:1.
[42]	KNOBEL R, DIWISCH M, GEISSEL H, et al. Eur Phys J A, 2016, 52:138
[43]	ZHANG Yuhu, WANG Meng, LITVINOV YU A, et al. Nuclear Physics Review, 2016, 33:122.
[44]	XU X, ZHANG P, SHUAI P, et al. Phys Rev Lett, 2016, 117:182503.
[45]	ZHANG P, XU X, SHUAI P, et al. Physics Letters B, 2017, 767:20.
[46]	ZENG Qi, WANG Meng, ZHANG Yuhu, et al. Nuclear Physics Review, 2016, 34(3):414. doi:10.11804/NuclPhysRev.34.03.414. (in Chinese) (曾奇, 王猛, 张玉虎, 等. 原子核物理评论, 2017, 34(3):414.)
[47]	XING Y M, WANG M, ZHANG Y H, et al. Physica Scripta T, 2015, 166:014010.
[48]	ZHANG W, TU X L, WANG M, et al. Nucl Instr Meth A, 2014, 756:1.
[49]	AUDI G. International Journal of Mass Spectrometry, 2006, 251:85.
[50]	AUDI G, BLAUM K, BLOCK M, et al. At Data Nucl Data Tables, 2015, 103-104:1.
[51]	http://amdc.impcas.ac.cn
[52]	MOHR P J, TAYLOR B N, NEWELL D B Reviews of Modern Physics, 2008, 80:633.
[53]	NAGY S Z, FRITIOFF T, BJORKHAGE M, et al. Euro Phys Lett, 2006, 74(3):404.
[54]	WANG M, AUDI G, PFEIFFER B, et al. J Phys:Conf Ser, 2011, 312:092064.
[55]	MOHR P J, TAYLOR B N, NEWELL D B. Reviews of Modern Physics, 2012, 84:1527.
[56]	SUMIKAMA T, NISHIMURA S, BABA H, et al. Phys Rev C, 2017, 95:051601.
[57]	CELIKOVIC I, LEWITOWICZ M, GERNHAUSER R, et al. Phys Rev Lett, 2016, 116:162501.
[58]	YAMAGUCHI T. Physica Scripta T, 2015, 166:014039.
[59]	LI Cheng, ZHANG Fan, LI Jingjing, et al. Phys Rev C, 2016, 93:014618.
[60]	KIMURA S, ISHIYAMA H, MIYATAKE H, et al. Nucl Instr Meth B, 2016, 376:338.

Nuclear Mass Measurement and Evaluation

doi: 10.11804/NuclPhysRev.34.03.380

Abstract

References

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通讯作者: 陈斌, bchen63@163.com

Article Metrics

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