Influence of lateral misalignment on the optical rotational Doppler effect.

The discovery of the optical rotational Doppler effect associated with orbital angular momentum of light paves a new way to detect the rotational speed of spinning objects. In this paper, we investigate the influence of lateral misalignment, i.e., the distance between the beam axis of a probe light and the rotation axis of a spinning object, on the rotational Doppler effect. First, we analyze the mechanism of the rotational Doppler effect of optical vortices based on the linear Doppler effect. Specifically, we consider the general case where the center of the optical vortex does not coincide with the rotation axis, and deduce the generalized formula of rotational Doppler shift based on a local scattering model. It is found that the bandwidth of the rotational Doppler signal depends proportionally on the amount of lateral misalignment, whereas the value of rotational Doppler shift remains constant. A proof-of-concept experiment is performed, and the measured results agree well with theoretical predictions. These findings may be useful for practical application of the optical rotational Doppler effect in remote sensing and metrology.

[1]  Haifeng Dong,et al.  Generating optical vortex with large topological charges by spiral phase plates in cascaded and double-pass configuration , 2018, Optik.

[2]  Jonathan Leach,et al.  Direct measurement of the skew angle of the Poynting vector in a helically phased beam. , 2006, Optics express.

[3]  Pei Zhang,et al.  Orbital angular momentum complex spectrum analyzer for vortex light based on the rotational Doppler effect , 2016, Light: Science & Applications.

[4]  B. A. Garetz,et al.  Angular doppler effect , 1981 .

[5]  Chunqing Gao,et al.  Non-diffractive Bessel-Gauss beams for the detection of rotating object free of obstructions. , 2017, Optics express.

[6]  Linda Mullen,et al.  Enhanced underwater ranging using an optical vortex. , 2018, Optics express.

[7]  I. Bialynicki-Birula,et al.  Rotational Frequency Shift , 1997 .

[8]  Hailong Zhou,et al.  Theoretical analysis and experimental verification on optical rotational Doppler effect. , 2016, Optics express.

[9]  R. Fickler,et al.  Free-Space Remote Sensing of Rotation at the Photon-Counting Level , 2018, Physical Review Applied.

[10]  L. Allen,et al.  Azimuthal doppler shift in light beams with orbital angular momentum , 1994 .

[11]  J. P. Woerdman,et al.  Orbital angular momentum of light and the transformation of Laguerre-Gaussian laser modes. , 1992, Physical review. A, Atomic, molecular, and optical physics.

[12]  Stephen H. Simpson,et al.  Rotational Doppler velocimetry to probe the angular velocity of spinning microparticles , 2014 .

[13]  Duncan A. Robertson,et al.  Measurement of the Rotational Frequency Shift Imparted to a Rotating Light Beam Possessing Orbital Angular Momentum , 1998 .

[14]  A. Fischer Model-based review of Doppler global velocimetry techniques with laser frequency modulation , 2017 .

[15]  M. Vasnetsov,et al.  Analysis of orbital angular momentum of a misaligned optical beam , 2005 .

[16]  Daomu Zhao,et al.  Experimental study of propagation properties of vortex beams in oceanic turbulence. , 2017, Applied optics.

[17]  John Henry Poynting,et al.  The wave motion of a revolving shaft, and a suggestion as to the angular momentum in a beam of circularly polarised light , 1909 .

[18]  Wenbo Zhang,et al.  Erbium-doped amplification in circular photonic crystal fiber supporting orbital angular momentum modes. , 2017, Applied optics.

[19]  Mikhail V. Vasnetsov,et al.  Observation of the rotational doppler effect for optical beams with helical wave front using spiral zone plate , 2002 .

[20]  Johannes Courtial,et al.  Measurement of the light orbital angular momentum spectrum using an optical geometric transformation , 2011 .

[21]  S. Barnett,et al.  Observation of the rotational Doppler shift of a white-light, orbital-angular-momentum-carrying beam backscattered from a rotating body , 2014 .

[22]  Stephen Arnold,et al.  Variable frequency shifting of circularly polarized laser radiation via a rotating half-wave retardation plate , 1979 .

[23]  Jian Wang,et al.  Sharing a Common Origin Between the Rotational and Linear Doppler Effects , 2017, 1912.01409.

[24]  S. Barnett,et al.  Detection of a Spinning Object Using Light’s Orbital Angular Momentum , 2013, Science.

[25]  R. A. Beth Mechanical Detection and Measurement of the Angular Momentum of Light , 1936 .

[26]  A. Belmonte,et al.  Optical Doppler shift with structured light. , 2011, Optics letters.