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Literature DB >> 9144154

Optical trapping and manipulation of neutral particles using lasers.

Abstract

The techniques of optical trapping and manipulation of neutral particles by lasers provide unique means to control the dynamics of small particles. These new experimental methods have played a revolutionary role in areas of the physical and biological sciences. This paper reviews the early developments in the field leading to the demonstration of cooling and trapping of neutral atoms in atomic physics and to the first use of optical tweezers traps in biology. Some further major achievements of these rapidly developing methods also are considered.

Mesh：

Year: 1997 PMID： 9144154 PMCID： PMC24595 DOI： 10.1073/pnas.94.10.4853

Source DB: PubMed Journal: Proc Natl Acad Sci U S A ISSN： 0027-8424 Impact factor: 11.205

105 in total

1. Raman cooling of atoms in an optical dipole trap.

Authors:
Journal: Phys Rev Lett Date: 1996-04-08 Impact factor: 9.161

2. Collective behavior of optically trapped neutral atoms.

Authors:
Journal: Phys Rev Lett Date: 1990-01-22 Impact factor: 9.161

3. Experimental observation of optically trapped atoms.

Authors:
Journal: Phys Rev Lett Date: 1986-07-21 Impact factor: 9.161

4. Stopping atoms with laser light.

Authors:
Journal: Phys Rev Lett Date: 1985-03-11 Impact factor: 9.161

5. Observation of optical resonances of dielectric spheres by light scattering.

Authors: A Ashkin; J M Dziedzic
Journal: Appl Opt Date: 1981-05-15 Impact factor: 1.980

6. Compliance of bacterial flagella measured with optical tweezers.

Authors: S M Block; D F Blair; H C Berg
Journal: Nature Date: 1989-04-06 Impact factor: 49.962

7. Laser induced cell fusion in combination with optical tweezers: the laser cell fusion trap.

Authors: R W Steubing; S Cheng; W H Wright; Y Numajiri; M W Berns
Journal: Cytometry Date: 1991

8. Observation of bose-einstein condensation in a dilute atomic vapor.

Authors: M H Anderson; J R Ensher; M R Matthews; C E Wieman; E A Cornell
Journal: Science Date: 1995-07-14 Impact factor: 47.728

9. Observation of Interference Between Two Bose Condensates

Authors:
Journal: Science Date: 1997-01-31 Impact factor: 47.728

10. Zona drilling and sperm insertion with combined laser microbeam and optical tweezers.

Authors: K Schütze; A Clement-Sengewald; A Ashkin
Journal: Fertil Steril Date: 1994-04 Impact factor: 7.329

144 in total

1. Measuring the forces involved in polyvalent adhesion of uropathogenic Escherichia coli to mannose-presenting surfaces.

Authors: M N Liang; S P Smith; S J Metallo; I S Choi; M Prentiss; G M Whitesides
Journal: Proc Natl Acad Sci U S A Date: 2000-11-21 Impact factor: 11.205

2. Rapid stiffening of integrin receptor-actin linkages in endothelial cells stimulated with thrombin: a magnetic bead microrheology study.

Authors: A R Bausch; U Hellerer; M Essler; M Aepfelbacher; E Sackmann
Journal: Biophys J Date: 2001-06 Impact factor: 4.033

Optical trapping and manipulation of neutral particles using lasers.

1. Raman cooling of atoms in an optical dipole trap.

2. Collective behavior of optically trapped neutral atoms.

3. Experimental observation of optically trapped atoms.

4. Stopping atoms with laser light.

5. Observation of optical resonances of dielectric spheres by light scattering.

6. Compliance of bacterial flagella measured with optical tweezers.

7. Laser induced cell fusion in combination with optical tweezers: the laser cell fusion trap.

8. Observation of bose-einstein condensation in a dilute atomic vapor.

9. Observation of Interference Between Two Bose Condensates

10. Zona drilling and sperm insertion with combined laser microbeam and optical tweezers.

1. Measuring the forces involved in polyvalent adhesion of uropathogenic Escherichia coli to mannose-presenting surfaces.

2. Rapid stiffening of integrin receptor-actin linkages in endothelial cells stimulated with thrombin: a magnetic bead microrheology study.

3. Binding strength and activation state of single fibrinogen-integrin pairs on living cells.

4. Single particle tracking of correlated bacterial dynamics.

Review 5. Stretching and imaging single DNA molecules and chromatin.

6. Laser-induced heating in optical traps.

7. Mechanical forces impeding exocytotic surfactant release revealed by optical tweezers.

8. Mechanical tweezer action by self-tightening knots in surfactant nanotubes.

9. Design for an optical cw atom laser.

10. A bending mode analysis for growing microtubules: evidence for a velocity-dependent rigidity.