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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 9 >Page 0930001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 9, 0930001 (2021)
    Spectral Characteristics and Structure of Trapiche Aquamarine
    Huizhen Huang1, Jie Luo1、*, Yalan Xu2, Xunchong Zou3, Jiawei Jin1, and Yiqiong Huang1
    Author Affiliations
  • 1School of Jewelry, Guangzhou City Institute of Technology, Guangzhou , Guangdong 510800, China
  • 2School of Jewelry, Arts and Design, Wuzhou University, Wuzhou , Guangxi 543002, China
  • 3Analysis and Testing Center, Guangdong Industry Polytechnic, Guangzhou , Guangdong 510300, China
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    DOI: 10.3788/LOP202158.0930001 Cite this Article Set citation alerts
    Huizhen Huang, Jie Luo, Yalan Xu, Xunchong Zou, Jiawei Jin, Yiqiong Huang. Spectral Characteristics and Structure of Trapiche Aquamarine[J]. Laser & Optoelectronics Progress, 2021, 58(9): 0930001 Copy Citation Text show less
    Trapiche aquamarine sample
    Fig. 1. Trapiche aquamarine sample
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    Raman spectra of Trapiche aquamarine sample
    Fig. 2. Raman spectra of Trapiche aquamarine sample
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    Mid-infrared spectrum (fingerprint area) of Trapiche aquamarine sample
    Fig. 3. Mid-infrared spectrum (fingerprint area) of Trapiche aquamarine sample
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    Mid-infrared spectrum (functional group area) of Trapiche aquamarine sample
    Fig. 4. Mid-infrared spectrum (functional group area) of Trapiche aquamarine sample
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    Near-infrared spectrum of Trapiche aquamarine sample
    Fig. 5. Near-infrared spectrum of Trapiche aquamarine sample
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    UV-Vis spectra of Trapiche aquamarine sample
    Fig. 6. UV-Vis spectra of Trapiche aquamarine sample
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    Test points for component analysis. (a)Test points of XRF; (b)test points of LA-ICP-MS
    Fig. 7. Test points for component analysis. (a)Test points of XRF; (b)test points of LA-ICP-MS
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    Microscopic feature of Trapiche aquamarine sample. (a) Macroscopic feature; (b) arm composed of directional flocculent inclusion; (c) ladder caused by parallel connection; (d) empty layer formed by parallel connection; (e) parallel growth trace; (f) a large number of gas-liquid inclusions
    Fig. 8. Microscopic feature of Trapiche aquamarine sample. (a) Macroscopic feature; (b) arm composed of directional flocculent inclusion; (c) ladder caused by parallel connection; (d) empty layer formed by parallel connection; (e) parallel growth trace; (f) a large number of gas-liquid inclusions
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    Growth structure of Trapiche aquamarine[11]. (a) Composition of Trapiche structure; (b) sketch map of development of plane net perpendicular to C-axis direction
    Fig. 9. Growth structure of Trapiche aquamarine[11]. (a) Composition of Trapiche structure; (b) sketch map of development of plane net perpendicular to C-axis direction
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    ElementMass fraction /%
    L1L2L3L4L5L6
    Li0.02430.01670.01890.01690.01330.0132
    Be5.58295.82535.34886.02736.02785.7439
    Na0.49810.46160.37720.07470.19300.1542
    Mg0.22150.18340.16330.09590.08700.0713
    P0.02390.01630.01500.00960.00970.0072
    K0.08500.01470.02370.01450.01330.0099
    Ca0.10650.04750.03851.04130.02570.0402
    Sc0.00250.01180.01090.00610.00510.0048
    Ti0.03800.13290.14740.06110.01710.0297
    V0.00060.00070.00070.00050.00050.0004
    Cr0.00070.00100.00090.00170.00090.0011
    Mn0.06460.00620.00740.00520.00790.0049
    Fe0.73761.54261.50911.13251.01590.8633
    Zn0.03560.01270.01150.00840.00880.0085
    Ga0.00310.00440.00450.00350.00430.0042
    Rb0.00830.00740.00810.00440.00440.0037
    Cs0.07670.16480.16300.09480.10550.0991
    Table 1. LA-ICP-MS test data of the sample
    Abstract
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    Huizhen Huang, Jie Luo, Yalan Xu, Xunchong Zou, Jiawei Jin, Yiqiong Huang. Spectral Characteristics and Structure of Trapiche Aquamarine[J]. Laser & Optoelectronics Progress, 2021, 58(9): 0930001
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    Paper Information
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