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We perform an in-plane optical spectroscopy measurement on iron-based superconductor Li0.8Fe0.2ODFeSe single crystal. At room temperature, the low frequency optical conductivity shows an incoherent characteristic; the Drude component is absent. With temperature decreasing, the Drude component develops and narrows rapidly. A well-defined plasma edge is observed in reflectance spectrum at temperature below 100 K, indicating a dramatically reduced scattering rate. The spectral weight contributed from free carriers is even smaller than that of FeSe single crystal. A number of phonon modes are visible in the measured spectra. We also observe clear spectral change below 160 cm-1 at 10 K, associated with the formation of superconducting energy gap in the superconducting state. The energy scale of the superconducting gap is comparable to the value measured by angle-resolved photoemission spectroscopy technique. Like FeSe and other iron pnictides, a clear temperature-induced spectral weight transfer at high energy is observed for Li0.8Fe0.2ODFeSe, indicating the presence of strong correlation effect.
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[3] Guo J G, Jin S F, Wang G, Wang S C, Zhu K X, Zhou T T, He M, Chen X L 2010 Phys. Rev. B 82 180520
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[6] Liu D F, Zhang W H, Mou D X, He J F, Ou Y B, Wang Q Y, Li Z, Wang L L, Zhao L, He S L, Peng Y Y, Liu X, Chen C Y, Yu L, Liu G D, Dong X L, Zhang J, Chen C T, Xu Z Y, Hu J P, Chen X, Ma X C, Xue Q K, Zhou X J 2012 Nat. Commun. 3 931
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[13] Yan Y J, Zhang W H, Ren M Q, Liu X, Lu X F, Wang N Z, Niu X H, Fan Q, Miao J, Tao R, Xie B P, Chen X H, Zhang T, Feng D L 2016 Phys. Rev. B 94 134502
[14] Zhao L, Liang A J, Yuan D N, Hu Y, Liu D F, Huang J W, He S L, Shen B, Xu Y, Liu X, Yu L, Liu G D, Zhou H X, Huang Y L, Dong X L, Zhou F, Liu K, Lu Z Y, Zhao Z X, Chen C T, Xu Z Y, Zhou X J 2016 Nat. Commun. 7 10608
[15] Pan B Y, Shen Y, Hu D, Feng Y, Park J T, Christianson A D, Wang Q S, Hao Y Q, Wo H L, Yin Z P, Maier T A, Zhao J 2017 Nat. Commun. 8 123
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[17] Li G, Hu W Z, Dong J, Li Z, Zheng P, Chen G F, Luo J L, Wang N L 2008 Phys. Rev. Lett. 101 107004
[18] Yuan R H, Kong W D, Yan L, Ding H, Wang N L 2013 Phys. Rev. B 87 144517
[19] Hu W Z, Dong J, Li G, Li Z, Zheng P, Chen G F, Luo J L, Wang N L 2008 Phys. Rev. Lett. 101 257005
[20] Hu W Z, Li G, Zheng P, Chen G F, Luo J L, Wang N L 2009 Phys. Rev. B 80 100507
[21] Wang N L, Hu W Z, Chen Z G, Yuan R H, Li G, Chen G F, Xiang T 2012 J. Phys.: Condens. Matter 24 294202
[22] Benfatto L, Cappelluti E, Ortenzi L, Boeri L 2009 Nat. Phys. 5 647
[23] Qazilbash M M, Hamlin J J, Baumbach R E, Zhang L J, Singh D J, Maple M B, Basov D N 2009 Nat. Phys. 5 647
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[1] Rotter M, Tegel M, Johrendt D 2008 Phys. Rev. Lett. 101 107006
[2] Kuroki K, Onari S, Arita R, Usui H, Tanaka Y, Kontani H, Aoki H 2008 Phys. Rev. Lett. 101 087004
[3] Guo J G, Jin S F, Wang G, Wang S C, Zhu K X, Zhou T T, He M, Chen X L 2010 Phys. Rev. B 82 180520
[4] Margadonna S, Takabayashi Y, Ohishi Y, Mizuguchi Y, Takano Y, Kagayama T, Nakagawa T, Takata M, Prassides K 2009 Phys. Rev. B 80 064506
[5] Wang H P, Ye Z R, Zhang Y, Wang N L 2016 Sci. Bull. 61 1126
[6] Liu D F, Zhang W H, Mou D X, He J F, Ou Y B, Wang Q Y, Li Z, Wang L L, Zhao L, He S L, Peng Y Y, Liu X, Chen C Y, Yu L, Liu G D, Dong X L, Zhang J, Chen C T, Xu Z Y, Hu J P, Chen X, Ma X C, Xue Q K, Zhou X J 2012 Nat. Commun. 3 931
[7] He S L, He J F, Zhang W H, Zhao L, Liu D F, Liu X, Mou D X, Ou Y B, Wang Q Y, Li Z, Wang L L, Peng Y Y, Liu Y, Chen C Y, Yu L, Liu G D, Dong X L, Zhang J, Chen C T, Xu Z Y, Chen X, Ma X C, Xue Q K, Zhou X J 2013 Nat. Mater. 12 605
[8] Tan S Y, Zhang Y, Xia M, Ye Z Y, Chen F, Xie X, Peng R, Xu D F, Fan Q, Xu H C, Jiang J, Zhang T, Lai X C, Xiang T, Hu J P, Xie B P, Feng D L 2013 Nat. Mater. 12 634
[9] Zhang Z C, Wang Y H, Song Q, Liu C, Peng R, Moler K A, Feng D L, Wang Y Y 2015 Sci. Bull. 60 1301
[10] Lu X F, Wang N Z, Wu H, Wu Y P, Zhao D, Zeng X Z, Luo X G, Wu T, Bao W, Zhang G H, Huang F Q, Huang Q Z, Chen X H 2015 Nat. Mater. 14 325
[11] Dong X L, Jin K, Yuan D N, Zhou H X, Yuan J, Huang Y L, Hua W, Sun J L, Zheng P, Hu W, Mao Y Y, Ma M W, Zhang G M, Zhou F, Zhao Z X 2015 Phys. Rev. B 92 064515
[12] Niu X H, Peng R, Xu H C, Yan Y J, Jiang J, Xu D F, Yu T L, Song Q, Huang Z C, Wang Y X, Xie B P, Lu X F, Wang N Z, Chen X H, Sun Z, Feng D L 2015 Phys. Rev. B 92 060504
[13] Yan Y J, Zhang W H, Ren M Q, Liu X, Lu X F, Wang N Z, Niu X H, Fan Q, Miao J, Tao R, Xie B P, Chen X H, Zhang T, Feng D L 2016 Phys. Rev. B 94 134502
[14] Zhao L, Liang A J, Yuan D N, Hu Y, Liu D F, Huang J W, He S L, Shen B, Xu Y, Liu X, Yu L, Liu G D, Zhou H X, Huang Y L, Dong X L, Zhou F, Liu K, Lu Z Y, Zhao Z X, Chen C T, Xu Z Y, Zhou X J 2016 Nat. Commun. 7 10608
[15] Pan B Y, Shen Y, Hu D, Feng Y, Park J T, Christianson A D, Wang Q S, Hao Y Q, Wo H L, Yin Z P, Maier T A, Zhao J 2017 Nat. Commun. 8 123
[16] Tanner D B 2015 Phys. Rev. B 91 035123
[17] Li G, Hu W Z, Dong J, Li Z, Zheng P, Chen G F, Luo J L, Wang N L 2008 Phys. Rev. Lett. 101 107004
[18] Yuan R H, Kong W D, Yan L, Ding H, Wang N L 2013 Phys. Rev. B 87 144517
[19] Hu W Z, Dong J, Li G, Li Z, Zheng P, Chen G F, Luo J L, Wang N L 2008 Phys. Rev. Lett. 101 257005
[20] Hu W Z, Li G, Zheng P, Chen G F, Luo J L, Wang N L 2009 Phys. Rev. B 80 100507
[21] Wang N L, Hu W Z, Chen Z G, Yuan R H, Li G, Chen G F, Xiang T 2012 J. Phys.: Condens. Matter 24 294202
[22] Benfatto L, Cappelluti E, Ortenzi L, Boeri L 2009 Nat. Phys. 5 647
[23] Qazilbash M M, Hamlin J J, Baumbach R E, Zhang L J, Singh D J, Maple M B, Basov D N 2009 Nat. Phys. 5 647
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