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Deck 4: Optical Fiber Communication: Scattering, Polarization, and Dispersion
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Deck 4: Optical Fiber Communication: Scattering, Polarization, and Dispersion
1
The variant of non-zero-dispersion-shifted fiber is called as
A)dispersion flattened fiber
B)zero-dispersion fiber
C)positive-dispersion fiber
D)negative-dispersion fiber
A)dispersion flattened fiber
B)zero-dispersion fiber
C)positive-dispersion fiber
D)negative-dispersion fiber
negative-dispersion fiber
2
Rayleigh scattering and Mie scattering are the types of
A)linear scattering losses
B)non-linear scattering losses
C)fiber bends losses
D)splicing losses
A)linear scattering losses
B)non-linear scattering losses
C)fiber bends losses
D)splicing losses
linear scattering losses
3
Dominant intrinsic loss mechanism in low absorption window between ultraviolet and infrared absorption tails is
A)mie scattering
B)rayleigh scattering
C)stimulated raman scattering
D)stimulated brillouin scattering
A)mie scattering
B)rayleigh scattering
C)stimulated raman scattering
D)stimulated brillouin scattering
rayleigh scattering
4
Rayleigh scattering can be reduced by operating at smallest possible wavelengths.
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5
The scattering resulting from fiber imperfections like core-cladding RI differences, diameter fluctuations, strains, and bubbles is
A)rayleigh scattering
B)mie scattering
C)stimulated brillouin scattering
D)stimulated raman scattering
A)rayleigh scattering
B)mie scattering
C)stimulated brillouin scattering
D)stimulated raman scattering
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6
Mie scattering has in-homogeneities mainly in
A)forward direction
B)backward direction
C)all direction
D)core-cladding interface
A)forward direction
B)backward direction
C)all direction
D)core-cladding interface
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7
The in-homogeneities in Mie scattering can be reduced by coating of a fiber.
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8
Raman and Brillouin scattering are usually observed at
A)low optical power densities
B)medium optical power densities
C)high optical power densities
D)threshold power densities
A)low optical power densities
B)medium optical power densities
C)high optical power densities
D)threshold power densities
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9
The phonon is a quantum of an elastic wave in a crystal lattice.
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10
A single-mode optical fiber has an attenuation of 0.3dB/km when operating at wavelength of 1.1?m. The fiber core diameter is 4?mand bandwidth is 500 MHz. Find threshold optical power for stimulated Brillouin scattering.
A)11.20 mw
B)12.77 mw
C)13.08 mw
D)12.12 mw
A)11.20 mw
B)12.77 mw
C)13.08 mw
D)12.12 mw
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11
0.4 dB/km, 1.4?m, 6?m, 550MHz. Find threshold optical power for stimulated Raman scattering.
A)1.98 w
B)1.20 w
C)1.18 w
D)0.96 w
A)1.98 w
B)1.20 w
C)1.18 w
D)0.96 w
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12
Stimulated Brillouin scattering is mainly a
A)forward process
B)backward process
C)upward process
D)downward process
A)forward process
B)backward process
C)upward process
D)downward process
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13
High frequency optical phonon is generated in stimulated Raman scattering. State true or false
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14
For many applications which involve optical fiber transmission, an intensity modulation optical source is not required.
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15
The optical source used for detection of optical signal is
A)ir sensors
B)photodiodes
C)zener diodes
D)transistors
A)ir sensors
B)photodiodes
C)zener diodes
D)transistors
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16
An optical fiber behaves as a birefringence medium due to differences in
A)effective r-i and core geometry
B)core-cladding symmetry
C)transmission/propagation time of waves
D)refractive indices of glass and silica
A)effective r-i and core geometry
B)core-cladding symmetry
C)transmission/propagation time of waves
D)refractive indices of glass and silica
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17
The beat length in a single mode optical fiber is 8 cm, when light from a laser with a peak wavelength 0.6?m is launched into it. Estimate the modal birefringence.
A)1×10?5
B)3.5×10?5
C)2×10?5
D)4×10?5
A)1×10?5
B)3.5×10?5
C)2×10?5
D)4×10?5
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18
Beat length of a single mode optical fiber is 0.6cm. Calculate the difference between propagation constants for the orthogonal modes
A)69.8
B)99.86
C)73.2
D)104.66
A)69.8
B)99.86
C)73.2
D)104.66
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19
A polarization maintaining fiber operates at a wavelength 1.2?m and have a modal birefringence of 1.8*10-3. Calculate the period of perturbation.
A)0.7 seconds
B)0.6 seconds
C)0.23 seconds
D)0.5 seconds
A)0.7 seconds
B)0.6 seconds
C)0.23 seconds
D)0.5 seconds
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20
When two components are equally excited at the fiber input, then for polarization maintaining fibers ??gshould be around
A)1.5ns/km
B)1 ns/km
C)1.2ns/km
D)2ns/km
A)1.5ns/km
B)1 ns/km
C)1.2ns/km
D)2ns/km
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21
Polarization modal noise can _________ the performance of communication system.
A)degrade
B)improve
C)reduce
D)attenuate
A)degrade
B)improve
C)reduce
D)attenuate
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22
What is dispersion in optical fiber communication?
A)compression of light pulses
B)broadening of transmitted light pulses along the channel
C)overlapping of light pulses on compression
D)absorption of light pulses
A)compression of light pulses
B)broadening of transmitted light pulses along the channel
C)overlapping of light pulses on compression
D)absorption of light pulses
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23
What does ISI stands for in optical fiber communication?
A)invisible size interference
B)infrared size interference
C)inter-symbol interference
D)inter-shape interference
A)invisible size interference
B)infrared size interference
C)inter-symbol interference
D)inter-shape interference
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24
For no overlapping of light pulses down on an optical fiber link, the digital bit rate BT must be:
A)less than the reciprocal of broadened pulse duration
B)more than the reciprocal of broadened pulse duration
C)same as that of than the reciprocal of broadened pulse duration
D)negligible
A)less than the reciprocal of broadened pulse duration
B)more than the reciprocal of broadened pulse duration
C)same as that of than the reciprocal of broadened pulse duration
D)negligible
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25
The maximum bit rate that may be obtained on an optical fiber link is 1/3?.
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