Novel FSK Heterodyne Single-Filter Detection System Using No IF Frequency Lock

Y. C. Chung; R. W. Tkach; T. L. Koch

doi:10.1109/68.36015

Novel FSK Heterodyne Single-Filter Detection System Using No IF Frequency Lock

Y. C. Chung
, R. W. Tkach
, T. L. Koch

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

3 Scopus citations

Abstract

We report a novel FSK modulation/single-filter detection system which does not require an intermediate-frequency locking loop. Instead, this system utilizes laser frequency-locked to an atomic line (krypton 2p8-3d1” transition at 1.5224 µm) as both transmitter and local oscillator. As a result, communication can be initiated without any manual adjustment to match the wavelengths of transmitter and local oscillator lasers.

Original language	English (US)
Pages (from-to)	140-141
Number of pages	2
Journal	IEEE Photonics Technology Letters
Volume	1
Issue number	6
DOIs	https://doi.org/10.1109/68.36015
State	Published - Jun 1989
Externally published	Yes

ASJC Scopus subject areas

Electronic, Optical and Magnetic Materials
Atomic and Molecular Physics, and Optics
Electrical and Electronic Engineering

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10.1109/68.36015

Cite this

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title = "Novel FSK Heterodyne Single-Filter Detection System Using No IF Frequency Lock",

abstract = "We report a novel FSK modulation/single-filter detection system which does not require an intermediate-frequency locking loop. Instead, this system utilizes laser frequency-locked to an atomic line (krypton 2p8-3d1” transition at 1.5224 µm) as both transmitter and local oscillator. As a result, communication can be initiated without any manual adjustment to match the wavelengths of transmitter and local oscillator lasers.",

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year = "1989",

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AU - Chung, Y. C.

AU - Tkach, R. W.

AU - Koch, T. L.

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Y1 - 1989/6

N2 - We report a novel FSK modulation/single-filter detection system which does not require an intermediate-frequency locking loop. Instead, this system utilizes laser frequency-locked to an atomic line (krypton 2p8-3d1” transition at 1.5224 µm) as both transmitter and local oscillator. As a result, communication can be initiated without any manual adjustment to match the wavelengths of transmitter and local oscillator lasers.

AB - We report a novel FSK modulation/single-filter detection system which does not require an intermediate-frequency locking loop. Instead, this system utilizes laser frequency-locked to an atomic line (krypton 2p8-3d1” transition at 1.5224 µm) as both transmitter and local oscillator. As a result, communication can be initiated without any manual adjustment to match the wavelengths of transmitter and local oscillator lasers.

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DO - 10.1109/68.36015

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JO - IEEE Photonics Technology Letters

JF - IEEE Photonics Technology Letters

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ER -

Novel FSK Heterodyne Single-Filter Detection System Using No IF Frequency Lock

Abstract

ASJC Scopus subject areas

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