Method and apparatus for determining peak temperature along an optical fiber
Patent
·
OSTI ID:865442
- Oak Ridge, TN
The invention relates to a new method and new apparatus for determining the hottest temperature or the coldest temperature prevailing along the length of an optical-fiber light guide. The invention is conducted with an optical fiber capable of supporting multidiode propagation of light and comprising a core, a cladding, and a jacket. The core is selected to have (1) a higher refractive index than the core and the cladding and (2) a relatively high negative temperature coefficient of refractive index. A light beam capable of establishing substantially single-mode propagation in the core is launched into an end thereof at an angle to the axis. The angle is increased to effect the onset of light refraction from the core into the cladding. The value of the launch angle corresponding to the onset is determined and then used to establish the refractive index of the core corresponding to the onset angle. The maximum temperature prevailing along the fiber then is determined from the (1) refractive index so determined and (2) the temperature coefficient of refractive index for the core. The invention is based on the finding that the launch angle corresponding to the onset of refraction into the cladding is uniquely determined by the maximum value of the ratio of the core refractive index to the cladding refractive index, which maximum occurs at the hottest point along the fiber.
- Research Organization:
- Oak Ridge National Laboratory (ORNL), Oak Ridge, TN
- DOE Contract Number:
- W-7405-ENG-26
- Assignee:
- United States of America as represented by United States (Washington, DC)
- Patent Number(s):
- US 4515474
- OSTI ID:
- 865442
- Country of Publication:
- United States
- Language:
- English
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/356/374/
angle
apparatus
axis
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beam
capable
cladding
coefficient
coldest
comprising
conducted
core
corresponding
determined
determining
effect
establish
establishing
fiber
fiber light
finding
guide
hottest
increased
index
jacket
launch
launched
length
light
light beam
light guide
maximum
maximum temperature
maximum value
method
multidiode
negative
occurs
onset
optical
optical fiber
optical-fiber
peak
prevailing
propagation
ratio
refraction
refractive
refractive index
relates
relatively
selected
single-mode
substantially
substantially single
supporting
temperature
temperature coefficient
uniquely
value
angle
apparatus
axis
based
beam
capable
cladding
coefficient
coldest
comprising
conducted
core
corresponding
determined
determining
effect
establish
establishing
fiber
fiber light
finding
guide
hottest
increased
index
jacket
launch
launched
length
light
light beam
light guide
maximum
maximum temperature
maximum value
method
multidiode
negative
occurs
onset
optical
optical fiber
optical-fiber
peak
prevailing
propagation
ratio
refraction
refractive
refractive index
relates
relatively
selected
single-mode
substantially
substantially single
supporting
temperature
temperature coefficient
uniquely
value