Optical trapping of small particles using a 1.3-µm compact InGaAsP diode laser

S. Sato; M. Ohyumi; H. Shibata; H. Inaba; Y. Ogawa

doi:10.1364/OL.16.000282

Optical trapping of small particles using a 1.3-µm compact InGaAsP diode laser

S. Sato, M. Ohyumi, H. Shibata, H. Inaba, Y. Ogawa

IMRAM - Division of Process and System Engineering

Research output: Contribution to journal › Article › peer-review

63 Citations (Scopus)

Abstract

We describe the noncontact optical trapping of small particles by a single-beam gradient force using a near-infrared InGaAsP diode laser operating at 1.33 μm. The feasibility and reliability of diode-laser trapping was confirmed with polystyrene latex and glass spheres as well as with yeast cells. By moving small particles vertically to the laser beam axis, we measured the horizontal component of the trapping force based on the Stokes law. Thus a linear relationship between the trapping laser power and the horizontal trapping force is demonstrated and compared quantitatively with that for the Ar laser.

Original language	English
Pages (from-to)	282-284
Number of pages	3
Journal	Optics Letters
Volume	16
Issue number	5
DOIs	https://doi.org/10.1364/OL.16.000282
Publication status	Published - 1991 Mar 1

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abstract = "We describe the noncontact optical trapping of small particles by a single-beam gradient force using a near-infrared InGaAsP diode laser operating at 1.33 μm. The feasibility and reliability of diode-laser trapping was confirmed with polystyrene latex and glass spheres as well as with yeast cells. By moving small particles vertically to the laser beam axis, we measured the horizontal component of the trapping force based on the Stokes law. Thus a linear relationship between the trapping laser power and the horizontal trapping force is demonstrated and compared quantitatively with that for the Ar laser.",

author = "S. Sato and M. Ohyumi and H. Shibata and H. Inaba and Y. Ogawa",

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AU - Sato, S.

AU - Ohyumi, M.

AU - Shibata, H.

AU - Inaba, H.

AU - Ogawa, Y.

PY - 1991/3/1

Y1 - 1991/3/1

N2 - We describe the noncontact optical trapping of small particles by a single-beam gradient force using a near-infrared InGaAsP diode laser operating at 1.33 μm. The feasibility and reliability of diode-laser trapping was confirmed with polystyrene latex and glass spheres as well as with yeast cells. By moving small particles vertically to the laser beam axis, we measured the horizontal component of the trapping force based on the Stokes law. Thus a linear relationship between the trapping laser power and the horizontal trapping force is demonstrated and compared quantitatively with that for the Ar laser.

AB - We describe the noncontact optical trapping of small particles by a single-beam gradient force using a near-infrared InGaAsP diode laser operating at 1.33 μm. The feasibility and reliability of diode-laser trapping was confirmed with polystyrene latex and glass spheres as well as with yeast cells. By moving small particles vertically to the laser beam axis, we measured the horizontal component of the trapping force based on the Stokes law. Thus a linear relationship between the trapping laser power and the horizontal trapping force is demonstrated and compared quantitatively with that for the Ar laser.

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JF - Optics Letters

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Optical trapping of small particles using a 1.3-µm compact InGaAsP diode laser

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