Acta Optica Sinica, Volume. 42, Issue 22, 2227001(2022)
High-Resolution Identification of Amino Acid Species Based on Quantum Weak Measurement
References(42)
[1] Bender D A[M]. Amino acid metabolism(2012).
[2] Ballantyne J S. Amino acid metabolism[J]. Fish Physiology, 20, 77-107(2001).
[3] Szabados L, Savouré A. Proline: a multifunctional amino acid[J]. Trends in Plant Science, 15, 89-97(2010).
[4] de Koning T J, Snell K, Duran M et al. L-serine in disease and development[J]. Biochemical Journal, 371, 653-661(2003).
[5] Crumpler H R, Dent C E. Distinctive test for α-amino-acids in paper chromatography[J]. Nature, 164, 441-442(1949).
[6] Moore S. Amino acid analysis: aqueous dimethyl sulfoxide as solvent for the ninhydrin reaction[J]. Journal of Biological Chemistry, 243, 6281-6283(1968).
[7] Patrickios C S, Yamasaki E N. Polypeptide amino acid composition and isoelectric point II. Comparison between experiment and theory[J]. Analytical Biochemistry, 231, 82-91(1995).
[8] Tran D B A, Manfred K M, Peverall R et al. Continuous-wave cavity-enhanced polarimetry for optical rotation measurement of chiral molecules[J]. Analytical Chemistry, 93, 5403-5411(2021).
[9] Li D M, Guan T, Liu F et al. Optical rotation based chirality detection of enantiomers via weak measurement in frequency domain[J]. Applied Physics Letters, 112, 213701(2018).
[10] Ghosh A, Fischer P. Chiral molecules split light: reflection and refraction in a chiral liquid[J]. Physical Review Letters, 97, 173002(2006).
[11] Aharonov Y, Albert D Z, Vaidman L. How the result of a measurement of a component of the spin of a spin-1/2 particle can turn out to be 100[J]. Physical Review Letters, 60, 1351-1354(1988).
[12] Xu L P, Luo L, Wu H et al. Measurement of chiral molecular parameters based on a combination of surface plasmon resonance and weak value amplification[J]. ACS Sensors, 5, 2398-2407(2020).
[13] Ritchie N W, Story J G, Hulet R G. Realization of a measurement of a “weak value”[J]. Physical Review Letters, 66, 1107-1110(1991).
[14] Brunner N, Simon C. Measuring small longitudinal phase shifts: weak measurements or standard interferometry?[J]. Physical Review Letters, 105, 010405(2010).
[15] Xu L, Zhang L J. Progress in weak-value-based quantum metrology and tomography[J]. Laser & Optoelectronics Progress, 58, 1011004(2021).
[16] Hosten O, Kwiat P. Observation of the spin Hall effect of light via weak measurements[J]. Science, 319, 787-790(2008).
[17] Ling X H, Xiao W L, Chen S Z et al. Revisiting the anomalous spin-Hall effect of light near the Brewster angle[J]. Physical Review A, 103, 033515(2021).
[18] Wang Y. Spin Hall effect of light on the surface of functional photonic crystal[J]. Laser & Optoelectronics Progress, 58, 2316003(2021).
[19] Ling X H, Zhou X X, Huang K et al. Recent advances in the spin Hall effect of light[J]. Reports on Progress in Physics, 80, 066401(2017).
[20] Chen S Z, Ling X H, Shu W X et al. Precision measurement of the optical conductivity of atomically thin crystals via the photonic spin Hall effect[J]. Physical Review Applied, 13, 014057(2020).
[21] Wu Y P, Liu S Q, Chen S Z et al. Examining the optical model of graphene via the photonic spin Hall effect[J]. Optics Letters, 47, 846-849(2022).
[22] Li X, Zhou X X, Luo H L. Optimal weak measurements of photonic spin Hall effect in nanometal film[J]. Acta Optica Sinica, 34, 0731002(2014).
[23] Li J, Tang T T, Luo L et al. Weak measurement of the magneto-optical spin Hall effect of light[J]. Photonics Research, 7, 1014-1018(2019).
[24] Qiu X D, Zhou X X, Hu D J et al. Determination of magneto-optical constant of Fe films with weak measurements[J]. Applied Physics Letters, 105, 131111(2014).
[25] Li T, Wang Q, Taallah A et al. Measurement of the magnetic properties of thin films based on the spin Hall effect of light[J]. Optics Express, 28, 29086-29097(2020).
[26] Zhou X X, Sheng L J, Ling X H. Photonic spin Hall effect enabled refractive index sensor using weak measurements[J]. Scientific Reports, 8, 1221(2018).
[27] Li N X, Tang T T, Li J et al. Highly sensitive biosensor with graphene-MoS2 heterostructure based on photonic spin Hall effect[J]. Journal of Magnetism and Magnetic Materials, 484, 445-450(2019).
[28] Xu Y, Shi L X, Guan T et al. Multifunctional weak measurement system that can measure the refractive index and optical rotation of a solution[J]. Applied Physics Letters, 114, 181901(2019).
[29] Li D M, Guan T, He Y H et al. A chiral sensor based on weak measurement for the determination of Proline enantiomers in diverse measuring circumstances[J]. Biosensors and Bioelectronics, 110, 103-109(2018).
[30] Xie L G, Qiu X D, Luo L et al. Quantitative detection of the respective concentrations of chiral compounds with weak measurements[J]. Applied Physics Letters, 111, 191106(2017).
[31] Liu J W, Zeng K M, Xu W H et al. Ultrasensitive detection of ion concentration based on photonic spin Hall effect[J]. Applied Physics Letters, 115, 251102(2019).
[32] Chen M, Luo Z M, Wan T et al. Manipulation of spin splitting in spin Hall effect of light based on dynamic and geometric phases[J]. Acta Optica Sinica, 37, 0226002(2017).
[33] Wan T, Luo Z M, Min L et al. Enhanced photonic spin Hall effect due to controllable permittivity of alloy film[J]. Acta Physica Sinica, 67, 064201(2018).
[34] Liu S Q, Shou Y C, Zhou X et al. Lattice-dependent spin Hall effect of light in a Weyl semimetal[J]. Optics Express, 28, 10783-10793(2020).
[35] Liu S Q, Yang C F, Song Y F et al. Role of Weyl cone tilting in the spin Hall effect of light[J]. Journal of Physics D: Applied Physics, 54, 285108(2021).
[36] Tang P, Shu Y T, Wen Z X et al. High-resolution determination of kinetic parameters of sucrose hydrolysis based on weak measurement[J]. IEEE Photonics Journal, 14, 6810106(2022).
[37] Zhou X M, Lei B L, Zhang F P et al. Uncertainty evaluation for the determination of starch content in manihot esculenta by polarimetric method[J]. Food Science, 37, 144-147(2016).
[38] Lee M S, Khan F N, Shin S C et al. Comparison of polarimetry and crown ether-based HPLC chiral stationary phase method to determine (L)-amino acid optical purity[J]. Food Chemistry, 135, 343-347(2012).
[39] Wang J, Liu H X, Si H Z et al. Prediction of the power rotation of the amino acid based on the quantitative structure-property relationship method[J]. Chinese Journal of Analytical Chemistry, 34, 1759-1762(2006).
[40] Grill A, Patel V. Low dielectric constant films prepared by plasma-enhanced chemical vapor deposition from tetramethylsilane[J]. Journal of Applied Physics, 85, 3314-3318(1999).
[41] Yang G, Fu X J, Zhou J. Dielectric properties of the silver-copper alloy films deposited by magnetron sputtering[J]. Journal of the Optical Society of America B, 30, 282-287(2013).
[42] Yunus W M, Rahman A B. Refractive index of solutions at high concentrations[J]. Applied Optics, 27, 3341-3343(1988).
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Zhaoming Luo, Peng Tang, Yong Zhang, Ting Wan, Yan Deng, Jinggui Zhang. High-Resolution Identification of Amino Acid Species Based on Quantum Weak Measurement[J]. Acta Optica Sinica, 2022, 42(22): 2227001
Paper Information
Category: Quantum Optics
Received: Mar. 29, 2022
Accepted: May. 23, 2022
Published Online: Nov. 7, 2022
The Author Email: Luo Zhaoming (zhaomingluo@hnu.edu.cn)
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