Using polarization-shaped optical vortex traps for single-cell nanosurgery.

Using polarization-shaped optical vortex traps for single-cell nanosurgery. Research Abstract Details 

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Using polarization-shaped optical vortex traps for single-cell nanosurgery. Abstract Text:

Gavin D M Jeffries,J Scott Edgar,Yiqiong Zhao,J Patrick Shelby,Christine Fong,Daniel T Chiu,

Single-cell nanosurgery and the ability to manipulate nanometer-sized subcellular structures with optical tweezers has widespread applications in biology but so far has been limited by difficulties in maintaining the functionality of the transported subcellular organelles. This difficulty arises because of the propensity of optical tweezers to photodamage the trapped object. To address this issue, this paper describes the use of a polarization-shaped optical vortex trap, which exerts less photodamage on the trapped particle than conventional optical tweezers, for carrying out single-cell nanosurgical procedures. This method is also anticipated to find broad use in the trapping of any nanoparticles that are adversely affected by high-intensity laser light.

Using polarization-shaped optical vortex traps for single-cell nanosurgery. Publishing Authors By Initials

GD Jeffries,JS Edgar,Y Zhao,JP Shelby,C Fong,DT Chiu,

For similar cells: cellular structures: subcellular fractions research abstracts see: cells: cellular structures: subcellular fractions research

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Using polarization-shaped optical vortex traps for single-cell nanosurgery. Journal Published:

PUBLICATION TYPE: Research Support, Non-U.S. Gov

Journal: Nano letters

VOLUME: 7

Page Numbers: 415-20

Journal Abbreviation: Nano Lett.

ISSN: 1530-6984

DAY: 3

MONTH: Feb

YEAR: 2007

Using polarization-shaped optical vortex traps for single-cell nanosurgery. Information

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LANGUAGE: eng

NlmUniqueID: 101088070

Using polarization-shaped optical vortex traps for single-cell nanosurgery. Keywords Mesh Terms:

KEYWORDS: Subcellular Fractions

MESH TERMS: radiation effects

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Grant and Affiliation Information for Using polarization-shaped optical vortex traps for single-cell nanosurgery.

AFFILIATION: Department of Chemistry, University of Washington, Seattle, Washington 98195-1700, USA.

Country: United States

AGENCY: United States NIGMS

GRANT: GM 65293

ACRONYM: GM

MEDLINETA: Nano Lett

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