Vector analysis of Focusing Performance of Multilevel Circular Diffractive Microlens

Yuling, 刘玉玲 Liu; Chenhua, 隋成华 Sui; Bo, 李博 Li

doi:10.3788/aos20082806.1124

Cited by 2 publications

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“…代入 12式，经过计算得出轴向衍射场强度的具体表达式用 VRS 理论计算的参数与文献 [9] 中的 FDTD 模拟时的参数相同：λ = 1 μm， n=1.5 ， M=8 ， fd=100 mm ， d=2 μm 。虚线是利用 VRS 理论计算结果，实线是 FDTD 模拟结果 [9]…”

Section: -unclassified

“…是目前被广泛使用的矢量电磁场计算方法，可以被用来模拟计算高数值孔径 FZP 的衍射 [8][9] ，但是该方法不能给出物理图像，而且波带片的环数较大时，需要花费大量的计算时间。为了强调物理意义，需要一些解析模型来分析高数值孔径 FZP 的聚焦行为。Mote 等 [10] 用 Richards 和 Wolf 的矢量衍射理论 [11] 分析了 2 台阶相位光栅的矢量衍射特性。Carretero 等 [12][13] 用矢量 Rayleigh-Sommerfeld (VRS)衍射理论分析了二元振幅 FZP 的衍射。 Ye 等 [14] 使用 VRS 理论详细地研究了亚波长平面型二元振幅 FZP 聚焦场的偏振特性。…”

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Vertical Diffraction of Multi-Step Hybrid Fresnel Zone Plates

Yan¹,

Yaoju²,

Yan³

2014

激光与光电子学进展

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The vertical Rayleigh-Sommerfeld (VRS) diffraction theory is used for analyzing and calculating the focused field distributions of high-numerical-aperture (NA) multi-step hybrid Fresnel zone plates (M-SHFZP). Under the illumination of linearly-polarized light, results are shown as follows: 1) Due to the transmission coefficient of the film changing with the depth of steps, the focused intensity of M-SHFZP is smaller than that of multi-step pure-phase Fresnel zone plates (M-SPFZP). However, the focal spot size of M-SHFZP is almost the same as that of M-SPFZP; 2) As the step number increases, the focused intensity increases, but the spot size is invariant; 3) The diffraction field presents a multispot distribution for low-NA M-SHFZP, but the intensity of high-order foci is effectively suppressed for high-NA M-SHFZP. The more the step number and the higher the NA, the stronger the ability of M-SHFZP to suppress higher-order foci. The results obtained by the VRS agree with the results obtained from the finite-different time-domain (FDTD) simulation basically.

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Vertical Diffraction of Multi-Step Hybrid Fresnel Zone Plates

Yan¹,

Yaoju²,

Yan³

2014

激光与光电子学进展

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“…If the feature size of FZP is not too great, FDTD method can be used to simulate its focusing properties and this need not to take the amount of time to calculate. Liu et al simulate diffraction properties of four-step phase FZP by using FDTD method [22]. Igor V. Minin et al study the FZP in millimeter wave band [23].…”

Section: Introductionmentioning

confidence: 99%

“…In practical application, the incident light can illuminate either from the substrate side of the FZP or from the etch side of the FZP. In the previous analysis and calculation [5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][21][22][23][24], the substrate effect was not taken in account. In this paper, we investigate the correlation of focusing characteristics of the practical binary phase sub-wavelength FZP (with substrate structure) and the illuminating direction of the incident beam.…”

Section: Introductionmentioning

confidence: 99%

The Focusing Characteristics on the Binary Phase Sub-wavelength Fresnel Zone Plate

Suyama¹

2019

IJP

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In general, the substrate film is included in a practical Fresnel zone plate (FZP). The dependence of focusing characteristics on the incident direction of light illuminating the binary phase sub-wavelength FZP on substrate film are studied by using the finite-different time-domain method. The simulation results show that, in the range of effective etch depth, the intensity and size of FZP's focusing spot in the far-field region are insensitive to the incident direction. However, the focal length for the light illuminating from the etched structure side of the FZP is larger than that from the substrate film side of the FZP. For these two different incident directions, focal length decreases as the increase of etch depth. And for some special value of etch depth, for example, when the value equals to 700 nm, the depth of focus is quite great in the situation of light illuminating from the etched structure side and the reduction of focusing intensity and resolution of spot is within an acceptable range. The simulation results in this paper are useful for the FZP's applications in microscopy and photolithography.

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Vector analysis of Focusing Performance of Multilevel Circular Diffractive Microlens

Cited by 2 publications

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Vertical Diffraction of Multi-Step Hybrid Fresnel Zone Plates

Vertical Diffraction of Multi-Step Hybrid Fresnel Zone Plates

The Focusing Characteristics on the Binary Phase Sub-wavelength Fresnel Zone Plate

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