[1] A ASHKIN. Acceleration and trapping of particles by radiation pressure. Physical Review Letters, 24, 156-159(1970).
[2] A ASHKIN, J M DZIEDZIC, J E BJORKHOLM et al. Observation of a single-beam gradient force optical trap for dielectric particles. Optics Letters, 11, 288-290(1986).
[3] W H WRIGHT, G J SONEK, M W BERNS. Parametric study of the forces on microspheres held by optical tweezers. Applied Optics, 33, 1735-1748(1994).
[4] Yepeng ZHOU, Hongling REN, Juan WANG et al. Comparative analysis of the trapping force using Laguerre-Gaussian beam and Gaussian beam. Acta Photonica Sinica, 42, 1300-1304(2013).
[5] Zhiliang CAO, Yansheng LIANG, Shaohui YAN et al. Comparison investigation of the three-dimensional stiffness of optical tweezers with different polarization fields. Acta Photonica Sinica, 48, 0726002(2019).
[6] Y SHI, T ZHU, A Q LIU et al. Inverse optical torques on dielectric nanoparticles in elliptically polarized light waves. Physical Review Letters, 129, 053902(2022).
[7] R C MILLARD, G SEAVER. An index of refraction algorithm for seawater over temperature, pressure, salinity, density, and wavelength. Deep Sea Research Part A, 37, 1909-1926(1990).
[9] J A LOCK. Calculation of the radiation trapping force for laser tweezers by use of generalized Lorenz-Mie theory. I. Localized model description of an on-axis tightly focused laser beam with spherical aberration. Applied Optics, 43, 2532-2544(2004).
[10] P C WATERMAN. Matrix formulation of electromagnetic scattering. Proceedings of the IEEE, 53, 805-812(1965).
[11] D A WHITE. Numerical modeling of optical gradient traps using the vector finite element method. Journal of Computational Physics, 159, 13-37(2000).
[12] Gengjun HU, Jing LI, Qian LONG et al. FDTD numerical simulation of the trapping force of microspherein single optical tweezers. Acta Physica Sinica, 60, 45-50(2011).
[13] Juan WANG, Hongliang REN, Yepeng ZHOU. Applications of T-matrix method in optical tweezers and its progress. Laser & Optoelectronics Progress, 51, 70-82(2014).
[14] Juan WANG. Study on trapping force of optical tweezers based on T matrix method(2015).
[15] M I MISHCHENKO. Calculation of the amplitude matrix for a nonspherical particle in a fixed orientation. Applied Optics, 39, 1026-1031(2000).
[16] M I MISHCHENKO. Scattering, absorption, and emission of light by small particles, 167-171(2002).
[17] J P BARTON, D R ALEXANDER, S A SCHAUB. Theoretical determination of net radiation force and torque for a spherical particle illuminated by a focused laser beam. Journal of Applied Physics, 66, 4594-4602(1989).
[18] R W AUSTIN, G HALIKAS. The index of refraction of seawater(1976).
[19] E M STANLEY. The refractive index of seawater as a function of temperature, pressure and two wavelengths. Deep Sea Research & Oceanographic Abstracts, 18, 833-840(1971).
[20] M DAIMON, A MASUMURA. Measurement of the refractive index of distilled water from the near-infrared region to the ultraviolet region. Applied Optics, 46, 3811-3820(2007).
[21] X QUAN, E S FRY. Empirical equation for the index of refraction of seawater. Applied Optics, 34, 3477-3480(1995).
[22] L HU, X ZHANG, M J PERRY. Light scattering by pure seawater: Effect of pressure. Deep Sea Research Part I: Oceanographic Research Papers, 146, 103-109(2019).
[23] C F R ODUMODU, A W MODE. Geothermal gradients and heat flow variations in parts of the eastern Niger delta, Nigeria. Journal of the Geological Society of India, 88, 107-118(2016).
[24] C HUBER, I KLIMANT, C KRAUSE et al. Optical sensor for seawater salinity. Fresenius' Journal of Analytical Chemistry, 368, 196-202(2000).
[25] Tianyu JI, Guorong JIANG, Jian SHI et al. Methods of depth and pressure conversion in the ocean. Marine Forecasting, 32, 45-50(2015).
[26] P M SAUNDERS. Practical conversion of pressure to depth. Journal of Physical Oceanography, 11, 573-578(1981).
[27] T J MCDOUGALL, P M BARKER. Getting started with TEOS-10 and the Gibbs Seawater (GSW) oceanographic toolbox. Scor/Iapso WG, 127, 1-28(2011).
[28] Y SUN, J SHI, H YANG. The thermodynamic equation of seawater 2010 and its comparison with the equation of seawater 1980. Advances in Earth Science, 27, 1014-1025(2012).
[29] Z ZENG, S FU, H ZHANG et al. A survey of underwater optical wireless communications. IEEE Communications Surveys & Tutorials, 19, 204-238(2017).
[30] R C SMITH, K S BAKER. Optical properties of the clearest natural waters (200–800 nm). Applied Optics, 20, 177-184(1981).
[31] W S PEGAU, D GRAY, J R V ZANEVELD. Absorption and attenuation of visible and near-infrared light in water: dependence on temperature and salinity. Applied Optics, 36, 6035-6046(1997).
[32] C GABRIEL, M-AKHALIGHI , S BOURENNANE et al. Channel modeling for underwater optical communication, 833-837(2011).
[33] R RÖTTGERS, D MCKEE, C UTSCHIG. Temperature and salinity correction coefficients for light absorption by water in the visible to infrared spectral region. Optics Express, 22, 25093-25108(2014).
[34] GUL B , S ASHRAF, S KHAN et al. Cell refractive index: models, insights, applications and future perspectives. Photodiagnosis and Photodynamic Therapy, 33, 102096(2021).