Inventor
WYSOCKI PAUL F
US25 patents
⚠️ This page may combine multiple inventors who share the name “WYSOCKI PAUL F”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
WYSOCKI PAUL F
6 patentsUS9335502B1May 10, 2016
Fiber optic cable arrangement
WYSOCKI PAUL F6 citations82
US8842963B2Sep 23, 2014
Reducing reflection at termination of optical fiber in a small volume
WYSOCKI PAUL F9 citations74
US9488531B2Nov 8, 2016
Loss compensation for distributed sensing in downhole environments
WYSOCKI PAUL F3 citations69
US8744224B2Jun 3, 2014
Tapered fiber bundle apparatus with monitoring capability
WYSOCKI PAUL F3 citations62
US10668706B2Jun 2, 2020
Distributed sensing system employing a film adhesive
WYSOCKI PAUL F0 citations50
US9678044B2Jun 13, 2017
Method of measuring acoustic energy impinging upon a cable
WYSOCKI PAUL F1 citations48
ONETTA INC
4 patentsUS6417959B1Jul 9, 2002
Raman fiber amplifier
ONETTA INC71 citations96
US6556340B1Apr 29, 2003
Optical amplifiers and upgrade modules
ONETTA INC47 citations92
US6396623B1May 28, 2002
Wide-band optical amplifiers with interleaved gain stages
ONETTA INC40 citations92
US6424457B1Jul 23, 2002
Optical amplifiers and methods for manufacturing optical amplifiers
ONETTA INC18 citations80
LUCENT TECHNOLOGIES INC
4 patentsUS6882664B2Apr 19, 2005
Laser with internally coupled pump source
LUCENT TECHNOLOGIES INC26 citations92
US7215860B2May 8, 2007
Optical transmission fiber with a glass guiding cladding
LUCENT TECHNOLOGIES INC30 citations91
US7409128B2Aug 5, 2008
Pumping arrangement for fiber amplifiers with reduced reflective feedback
LUCENT TECHNOLOGIES INC42 citations90
US5633964AMay 27, 1997
Article comprising a multi-stage erbium-doped fiber amplifier
LUCENT TECHNOLOGIES INC15 citations73
UNIV LELAND STANFORD JUNIOR
3 patentsAT & T BELL LAB
2 patentsUS5309535AMay 3, 1994
Apparatus and method utilizing a rotating waveplate for reducing polarization dependent hole-burning in an amplified optical transmission system
AT & T BELL LAB30 citations91
US5309530AMay 3, 1994
Technique utilizing stress-induced birefringence for reducing polarization dependent hole-burning in an amplified optical transmission system
AT & T BELL LAB14 citations72