Journal of Infrared and Millimeter Waves, Volume. 42, Issue 6, 755(2023)

Faraday rotation in nitrogen-doped diamond measured by polarized terahertz time-domain spectroscopy in the presence of strong magnetic field

Huan XIAO1, Hua WEN2, Wen XU1,2,3、*, Jing ZHANG2, Xing-Jia CHENG2, Yi-Ming XIAO1、**, Lan DING1, Hao-Wen LI3, Yan-Zhe CHENG4, and Bin HE5
Author Affiliations
  • 1School of Physics and Astronomy and Yunnan Key laboratory of Quantum Information,Yunnan University,Kunming 650091,China
  • 2Key Laboratory of Materials Physics,Institute of Solid State Physics,HFIPS,Chinese Academy of Sciences,Hefei 230031,China
  • 3Micro Optical Instruments Inc.,Shenzhen 518118,China
  • 4Chongqing Qrigin Crystal Science & Technology Development Co. LTD,Chongqing 400030,China
  • 5College of New Materials and New Energies,Shenzhen Technology University,Shenzhen 515118,China
  • show less
    References(30)

    [1] Das D, Ramachandra Rao M S. N+-ion implantation induced enhanced conductivity in polycrystalline and single crystal diamond[J]. RSC Advances, 11, 23686(2021).

    [2] Tiwari S K, Pandey R, Wang N N et al. Progress in diamanes and diamanoids nanosystems for emerging technologies[J]. Advanced Science, 9, 2105770(2022).

    [3] Achard J, Jacques V, Tallaire A. CVD diamond single crystals with NV centres: a review of material synthesis and technology for quantum sensing applications[J]. Journal of Physics D-Applied Physics, 53, 313001(2020).

    [4] Zaitsev A M, Kazuchits N M, Kazuchits V N et al. Nitrogen-doped CVD diamond: Nitrogen concentration, color and internal stress[J]. Diamond and Related Materials, 105, 107794(2020).

    [5] Isberg J, Hammersberg J, Twitchen D J et al. Single crystal diamond for electronic applications[J]. Diamond and Related Materials, 13, 320(2004).

    [6] Zhang Y F, Zang C Y, Ma H G et al. HPHT synthesis of large single crystal diamond doped with high nitrogen concentration[J]. Diamond and Related Materials, 17, 209-211(2008).

    [7] Yamada H, Meier A, Mazzocchi F et al. Dielectric properties of single crystalline diamond wafers with large area at microwave wavelengths[J]. Diamond and Related Materials, 58, 1-4(2015).

    [8] Redman D A, Shu Q, Brown S W et al. Electronic structure of N-V centers and terahertz spectroscopy of diamond[J]. MRS Online Proceedings Library, 242, 127-132(1992).

    [9] Secroun A, Tallaire A, Achard J et al. Photoconductive properties of lightly N-doped single crystal CVD diamond films[J]. Diamond and Related Materials, 16, 953-957(2007).

    [10] Liu Y, Ding M, Su J et al. Dielectric properties of nitrogen-doped polycrystalline diamond films in Ka band[J]. Diamond and Related Materials, 76, 68-73(2017).

    [11] Kononenko V V, Komlenok M S, Chizhov P A et al. Efficiency of photoconductive terahertz generation in nitrogen-doped diamonds[J]. Photonics, 9, 18(2022).

    [12] Guo R A, Wang K Y, Tian Y M et al. Nitrogen vacancy luminescence and their phonon sidebands characteristics in nitrogen-doped diamond[J]. Journal of Alloys and Compounds, 924, 166507(2022).

    [13] Wang C, Xu W, Mei H Y et al. Substrate-induced electronic localization in monolayer MoS2 measured via terahertz spectroscopy[J]. Optics Letters, 44, 4139-4142(2019).

    [14] Han F W, Xu W, Li L L et al. A generalization of the Drude-Smith formula for magneto-optical conductivities in Faraday geometry[J]. Journal of Applied Physics, 119, 245706(2016).

    [15] Li S, Wang C M, Du Z Z et al. 3D quantum hall effects and nonlinear hall effect[J]. Npj Quantum Materials, 6, 96(2021).

    [16] Bilal M, Xu W, Wen H et al. Terahertz optical hall effect in p-type monolayer hexagonal boron nitride on fused silica substrate[J]. Optics Letters, 46, 9(2021).

    [17] Carothers K J, Norwood R A, Pyun J. High verdet constant materials for magneto-optical Faraday rotation: a review[J]. Chemistry of Materials, 34, 2531-2544(2022).

    [18] Onodera M, Kinoshita K, Moriya R et al. Cyclotron resonance study of monolayer graphene under double moiré potentials[J]. Nano Letters, 20, 4566-4572(2020).

    [19] Ma H, Zhao L N, Liu M et al. Applications of faraday effect in spintronics[J]. College Physics, 35, 11-13(2016).

    [20] Su J J, Li Y F, Ding M H et al. A dome-shaped cavity type microwave plasma chemical vapor deposition reactor for diamond films deposition[J]. Vacuum, 107, 51-55(2014).

    [21] Mei H Y, Xu W, Wang C et al. Terahertz magneto-optical properties of bi- and tri-layer graphene[J]. Journal of Physics-Condensed Matter, 30, 175701(2018).

    [22] Ejalonibu H, Sarty G, Bradley M. The effect of step-wise surface nitrogen doping in MPECVD grown polycrystalline diamonds[J]. Materials Science & Engineering B, 258, 114559(2020).

    [23] Wang Y F, Zhang W F, Lin C N et al. Multiphoton upconversion emission from diamond single crystals[J]. ACS Applied Materials & Interfaces, 10, 18935-18941(2018).

    [24] Duvillaret L, Garet F, Coutaz J L. A reliable method for extraction of material parameters in terahertz time-domain spectroscopy[J]. IEEE Journal Selected Topics in Quantum Electronics, 2, 739-746(1996).

    [25] Duvillaret L, Garet F, Coutaz J L. Highly precise determination of optical constants and sample thickness in terahertz time-domain spectroscopy[J]. Applied Optics, 38, 409-415(1999).

    [26] Hu X J. Studies on the n-type doping of diamond films molecular dynamics simulation and experiments[D](2003).

    [27] Kono S, Sasaki T, Inaba M et al. Sheet resistance underneath the Au ohmic-electrode on hydrogen-terminated surface-conductive diamond (001)[J]. Diamond and Related Materials, 80, 93-98(2017).

    [28] Sharda T, Sikder A K, Misra D S et al. Studies of defects and impurities in diamond thin films[J]. Diamond and Related Materials, 7, 250-254(1998).

    [29] Naka N, Fukai K, Handa Y et al. Direct measurement via cyclotron resonance of the carrier effective masses in pristine diamond[J]. Physical Review B, 88, 035205(2013).

    [30] Soshenko V V, Cojocaru I S, Bolshedvorskii S V et al. Measurement of the longitudinal relaxation time for the nitrogen nuclear spin in a nitrogen-vacancy colour centre of diamond[J]. Quantum Electronics, 51, 1144(2021).

    Tools

    Get Citation

    Copy Citation Text

    Huan XIAO, Hua WEN, Wen XU, Jing ZHANG, Xing-Jia CHENG, Yi-Ming XIAO, Lan DING, Hao-Wen LI, Yan-Zhe CHENG, Bin HE. Faraday rotation in nitrogen-doped diamond measured by polarized terahertz time-domain spectroscopy in the presence of strong magnetic field[J]. Journal of Infrared and Millimeter Waves, 2023, 42(6): 755

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category: Research Articles

    Received: Jan. 12, 2023

    Accepted: --

    Published Online: Dec. 26, 2023

    The Author Email: Wen XU (wenxu_issp@aliyun.com), Yi-Ming XIAO (yiming.xiao@ynu.edu.cn)

    DOI:10.11972/j.issn.1001-9014.2023.06.008

    Topics