Fluorescence Image of a Single Molecule in a Microsphere: Model

Hill, Steven C.; Nachman, Paul; Arnold, Stephen; Ramsey, J. M.; Barnes, Michael D.

Fluorescence Image of a Single Molecule in a Microsphere: Model

Active / Technical Report | Accession Number: ADA367750 |

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Abstract:

We model fluorescence images of single molecules in spherical dielectric microcavities. Molecules are treated as time-harmonic dipoles. Images are integrated over emission frequencies. Because of the strong refractive properties of the enclosing sphere, the fluorescence image depends on the refractive index of the sphere and the position, orientation, and emission frequency of the molecule. When the dipoles emission is at the frequency of a microsphere resonance, the brightest regions in the images appear to originate from outside the sphere for some dipole positions. This type of calculation should help in interpreting images of molecules in microspheres.

Author(s):

Hill, Steven C. ; Nachman, Paul ; Arnold, Stephen ; Ramsey, J. M. ; Barnes, Michael D.

Author Organization(s):

ARMY RESEARCH LAB ADELPHI MD

Descriptive Note:

Final rept. May 95-Mar 99

Supplementary Note:

Prepared in collaboration with TRW, Inc., Cleveland, OH., Oak Ridge national Lab., Oak Ridge, TN. DOI: 10.21236/ADA367750

Pagination:

0024

Security Markings

DOCUMENT & CONTEXTUAL SUMMARY

Distribution:

Approved For Public Release

RECORD

Collection: TR

Identifying Numbers

Report Number(s):

ARL-TR-1979

Monitor Series:

ARL/ADELPHI

Subject Terms

Joint Capability Areas:

JCA_1.2_Force Preparation; JCA_1_Force Support; JCA_6_Net Centric; JCA_8_Building Partnerships

Modernization Areas:

Microelectronics

Communities of Interest:

Air Platforms

Descriptor(s):

*FLUORESCENCE, *IMAGES, MOLECULES, REFRACTIVE INDEX, MICROSCOPY, PARTICLES, GREENS FUNCTIONS, MICROSPHERES

Field(s)/Group(s):

Optics

Keyword(s):

*SINGLE MOLECULES, PE61102A

Report Date:

1999 Jul 01

Creation Date:

1999 Sep 29