Photodegradation of Optically Trapped Polystyrene Beads at 442 nm
Polystyrene particles of different sizes are optically
trapped with a gaussian beam from a He-Cd laser operating at 442
nm. The particles are observed to exhibit luminescence after a certain
trapping time followed by an escape from the optical trap. The
observed luminescence is explained in terms of the photodegradation
of the polystyrene backbone. It is speculated that these chemical
modifications also play a role for the escape of the particles from the
trap. Variations of the particle size and the laser power show that
these parameters have a great influence on the observed phenomena.
[1] A. Ashkin, "Forces of a single-beam gradient laser trap on a dielectric
sphere in the ray optics regime", Biophys. J., vol.61, pp. 569-582,
February, 1992.
[2] A. Ashkin, J. M. Dziedzic, J. E. Bjorkholm, and Steven Chu,
"Observation of a single-beam gradient force optical trap for dielectric
particles", Opt.Lett., vol. 11, pp. 288-290, May, 1986.
[3] A . Ashkin, "Acceleration and trapping of particles by radiation
pressure", Phys. Rev. Lett, vol 24, pp. 156-159, January, 1970.
[4] A. A. R. Neves, A. Fontes, L de Y. Pozzo, A. A. de Thomaz, E.
Chillce, E. Rodriguez, L. C. Barbosa and C. L. Cesar, "Electromagnetic
forces for an arbitrary optical trapping of a spherical
dielectric",Opt.Exp., vol. 14, pp. 13101-13106, December, 2006.
[5] K. C. Neuman and S. M. Block, "Optical trapping", Rev. of. Sci.
Instru., vol 75, pp. 2787-2809, September, 2004.
[6] J. R. Moffitt,Y. R. Chemla, S. B. Smith and C. Bustamante, "Recent
advances in optical tweezers", Annu. Rev. Biochem., vol. 77, pp. 205-
228, February, 2008.
[7] W. M. Lee, P. J. Reece, R. F. Marchington, N. K. Metzger and K.
Dholakia, "Construction and calibration of an optical trap on a
fluorescence optical microscope", Nature Protocols, vol.2, pp. 3226-
3238, December, 2007.
[8] H. Zhang and K.K. Liu, "Optical tweezers for single cells", J. R. Soc.
Interface, vol.5, pp. 671-690, April, 2008.
[9] T. K. Lake, A. E. Carruthers, L. Paterson, M. Taylor, F.G. Moore, J.W.
Allen, W. Sibbett and K. Dholakia, "Optical trapping and fluorescence
excitation with violet diode lasers and extended cavity surface emitting
lasers", Opt. Express, vol. 12, no. 4, pp 670-678, February, 2004.
[10] K. D. Crawford and K.D. Hughes, "Rapid formation and spectroscopic
observation of polystyrene conjugation in individual micron diameter
particles with visible radiation", J. Phy. Chem. B, vol. 101, pp 864-870,
February, 1997. and references therein
[11] A Torikai, A. Takeuchi and K. Fueki, "The effect of temperature on the
photodegradation of the polystyrene", Poly. Degrad. Stab. vol. 14, no. 4,
pp 367-375, 1986.
[12] J. K. Simons, J. M. Chen, J. W. Taylor and R. A. Rosenberg
"Fluorescence studies of the vacuum ultraviolet, synchrotron radiationinduced
photochemistry of polystyrene", Macromolecules, vol.26,
no.13, pp. 3262-3266, June, 1993.
[13] C.Y. Soong, W. K. Li, C. H. Liu and P. Y. Tzeng, "Theoretical
analysis of photophoresis of a microscale hydrophobic particle in
liquids" Opt. Express, vol.18, no.3, pp 2168-2182, February, 2010.
[14] N. Grassie and N. A Weir,"The photooxidation of polymers .II.
Photolysis of polystyrene", J. Appl. Poly. Sci., vol. 9, no. 3, pp 975-986,
March, 1965.
[15] K. M. Dyumayev, N. P. Kuzmina, V. V. Lobko, G. A. Matyushin, V.
S. Nechitailo and A. V. Chadov, "The mechanisms of polystyrene
destruction under influence of powerful UV radiation: Initial stages" Int.
J. Polymeric Mater. vol. 17, pp. 121-130, August, 1992.
[16] J. W. Martin, J. W. Chin and T. Nguyen, "Reciprocity law experiments
in polymeric photodegradation: a critical review" Prog. In Org.
Coatings, vol.47, no 3-4, pp 292-31, September, 2003.
[17] K. Schwarzschild, "On the law of reciprocity for bromide of silver
gelatin". Astrophys. J, vol.11, pp.89-91, 1900.
[1] A. Ashkin, "Forces of a single-beam gradient laser trap on a dielectric
sphere in the ray optics regime", Biophys. J., vol.61, pp. 569-582,
February, 1992.
[2] A. Ashkin, J. M. Dziedzic, J. E. Bjorkholm, and Steven Chu,
"Observation of a single-beam gradient force optical trap for dielectric
particles", Opt.Lett., vol. 11, pp. 288-290, May, 1986.
[3] A . Ashkin, "Acceleration and trapping of particles by radiation
pressure", Phys. Rev. Lett, vol 24, pp. 156-159, January, 1970.
[4] A. A. R. Neves, A. Fontes, L de Y. Pozzo, A. A. de Thomaz, E.
Chillce, E. Rodriguez, L. C. Barbosa and C. L. Cesar, "Electromagnetic
forces for an arbitrary optical trapping of a spherical
dielectric",Opt.Exp., vol. 14, pp. 13101-13106, December, 2006.
[5] K. C. Neuman and S. M. Block, "Optical trapping", Rev. of. Sci.
Instru., vol 75, pp. 2787-2809, September, 2004.
[6] J. R. Moffitt,Y. R. Chemla, S. B. Smith and C. Bustamante, "Recent
advances in optical tweezers", Annu. Rev. Biochem., vol. 77, pp. 205-
228, February, 2008.
[7] W. M. Lee, P. J. Reece, R. F. Marchington, N. K. Metzger and K.
Dholakia, "Construction and calibration of an optical trap on a
fluorescence optical microscope", Nature Protocols, vol.2, pp. 3226-
3238, December, 2007.
[8] H. Zhang and K.K. Liu, "Optical tweezers for single cells", J. R. Soc.
Interface, vol.5, pp. 671-690, April, 2008.
[9] T. K. Lake, A. E. Carruthers, L. Paterson, M. Taylor, F.G. Moore, J.W.
Allen, W. Sibbett and K. Dholakia, "Optical trapping and fluorescence
excitation with violet diode lasers and extended cavity surface emitting
lasers", Opt. Express, vol. 12, no. 4, pp 670-678, February, 2004.
[10] K. D. Crawford and K.D. Hughes, "Rapid formation and spectroscopic
observation of polystyrene conjugation in individual micron diameter
particles with visible radiation", J. Phy. Chem. B, vol. 101, pp 864-870,
February, 1997. and references therein
[11] A Torikai, A. Takeuchi and K. Fueki, "The effect of temperature on the
photodegradation of the polystyrene", Poly. Degrad. Stab. vol. 14, no. 4,
pp 367-375, 1986.
[12] J. K. Simons, J. M. Chen, J. W. Taylor and R. A. Rosenberg
"Fluorescence studies of the vacuum ultraviolet, synchrotron radiationinduced
photochemistry of polystyrene", Macromolecules, vol.26,
no.13, pp. 3262-3266, June, 1993.
[13] C.Y. Soong, W. K. Li, C. H. Liu and P. Y. Tzeng, "Theoretical
analysis of photophoresis of a microscale hydrophobic particle in
liquids" Opt. Express, vol.18, no.3, pp 2168-2182, February, 2010.
[14] N. Grassie and N. A Weir,"The photooxidation of polymers .II.
Photolysis of polystyrene", J. Appl. Poly. Sci., vol. 9, no. 3, pp 975-986,
March, 1965.
[15] K. M. Dyumayev, N. P. Kuzmina, V. V. Lobko, G. A. Matyushin, V.
S. Nechitailo and A. V. Chadov, "The mechanisms of polystyrene
destruction under influence of powerful UV radiation: Initial stages" Int.
J. Polymeric Mater. vol. 17, pp. 121-130, August, 1992.
[16] J. W. Martin, J. W. Chin and T. Nguyen, "Reciprocity law experiments
in polymeric photodegradation: a critical review" Prog. In Org.
Coatings, vol.47, no 3-4, pp 292-31, September, 2003.
[17] K. Schwarzschild, "On the law of reciprocity for bromide of silver
gelatin". Astrophys. J, vol.11, pp.89-91, 1900.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:63083", author = "V. Subramanyan Namboodiri and Sajan. D. George and Steffen Hardt", title = "Photodegradation of Optically Trapped Polystyrene Beads at 442 nm", abstract = "Polystyrene particles of different sizes are optically
trapped with a gaussian beam from a He-Cd laser operating at 442
nm. The particles are observed to exhibit luminescence after a certain
trapping time followed by an escape from the optical trap. The
observed luminescence is explained in terms of the photodegradation
of the polystyrene backbone. It is speculated that these chemical
modifications also play a role for the escape of the particles from the
trap. Variations of the particle size and the laser power show that
these parameters have a great influence on the observed phenomena.", keywords = "Photodegradation, Polystyrene particles, Opticaltrapping", volume = "4", number = "9", pages = "889-4", }
