首页
网站开发
桌面应用
管理软件
微信开发
App开发
嵌入式软件
工具软件
数据采集与分析
其他
首页
>
> 详细
ENG5298代做、代写R程序语言
项目预算:
开发周期:
发布时间:
要求地区:
Lasers & Integrated Optics – ENG5298
ASSIGNMENT ON INTEGRATED PHOTONICS - 2023
Mach-Zehnder Interferometers and Microring Resonators
1) Consider a Mach-Zehnder Interferometer (MZI) fabricated on a silicon-on-insulator photonic
chip operating at a wavelength ?=1500 nm. The waveguides have an effective index neff=3,
and the two interferometer arms have equal length L1=L2=0.5 mm (a top-view schematic of
the MZI is shown below).
a) Calculate the optical length of the MZI arms (the optical length is defined as the product
between the geometrical length and the effective refractive index of the waveguide).
b) The effective index of arm 1 is linearly increased by 1% by locally heating the waveguide (i.e.
neff in arm 1 varies from 3.00 to 3.03). Plot the output intensities of output 1 and output 2 as
a function of the change in neff when a constant optical signal is injected from input 1.
c) To increase the sensitivity of the MZI, the arm lengths are increased by folding the waveguides
into a spiral geometry (see top-view below). If the effective index in arm 1 is changed by
0.01%, calculate the minimum arm length that gives a phase difference between the arms of
Δ = .
d) The MZI design is now changed into an asymmetric geometry, in which L1 is kept at 0.5 mm
and L2 is increased to 5mm. Plot the optical intensities of output 1 and output 2 when the
wavelength of the input 1 signal is swept from 1500 nm to 1501 nm. Briefly discuss a possible
application of this device.
2) The intensity transmission of a micro-ring resonator connected to a single bus waveguide is
given by the following equation:
Where k=neff2?/? is the wave vector, r is the self-coupling field coefficient, ? is the single-pass
field amplitude transmission given by 2 = ?, ? are the waveguide losses, Lr=2?*R is the
cavity round trip and R is the cavity radius.
a. Calculate the Free-Spectral Range (FSR) of a resonator operating at a wavelength
??=1550 nm with radius R=10 ?m, losses ?=3 cm-1, a self-coupling field coefficient
r=0.9, and effective index neff=3.5 (assume ng=neff).
b. Using the resonator parameters defined in section a) and a self-coupling field
coefficient r=0.9, plot the intensity transmission as a function of the wavelength over
a few spectral ranges. Consider a centre wavelength ??=1550 nm for your plot.
c. Using the resonator parameters defined in section a), plot the intensity transmission
at resonance over the range of self-coupling field coefficients r=0.98 - 0.995 with
increments ?r= 0.001.
d. Calculate the single-pass field amplitude transmission and discuss the results of
section c) for r, r= ? and r>
软件开发、广告设计客服
QQ:99515681
邮箱:99515681@qq.com
工作时间:8:00-23:00
微信:codinghelp
热点项目
更多
urba6006代写、java/c++编程语...
2024-12-26
代做program、代写python编程语...
2024-12-26
代写dts207tc、sql编程语言代做
2024-12-25
cs209a代做、java程序设计代写
2024-12-25
cs305程序代做、代写python程序...
2024-12-25
代写csc1001、代做python设计程...
2024-12-24
代写practice test preparatio...
2024-12-24
代写bre2031 – environmental...
2024-12-24
代写ece5550: applied kalman ...
2024-12-24
代做conmgnt 7049 – measurem...
2024-12-24
代写ece3700j introduction to...
2024-12-24
代做adad9311 designing the e...
2024-12-24
代做comp5618 - applied cyber...
2024-12-24
热点标签
mktg2509
csci 2600
38170
lng302
csse3010
phas3226
77938
arch1162
engn4536/engn6536
acx5903
comp151101
phl245
cse12
comp9312
stat3016/6016
phas0038
comp2140
6qqmb312
xjco3011
rest0005
ematm0051
5qqmn219
lubs5062m
eee8155
cege0100
eap033
artd1109
mat246
etc3430
ecmm462
mis102
inft6800
ddes9903
comp6521
comp9517
comp3331/9331
comp4337
comp6008
comp9414
bu.231.790.81
man00150m
csb352h
math1041
eengm4100
isys1002
08
6057cem
mktg3504
mthm036
mtrx1701
mth3241
eeee3086
cmp-7038b
cmp-7000a
ints4010
econ2151
infs5710
fins5516
fin3309
fins5510
gsoe9340
math2007
math2036
soee5010
mark3088
infs3605
elec9714
comp2271
ma214
comp2211
infs3604
600426
sit254
acct3091
bbt405
msin0116
com107/com113
mark5826
sit120
comp9021
eco2101
eeen40700
cs253
ece3114
ecmm447
chns3000
math377
itd102
comp9444
comp(2041|9044)
econ0060
econ7230
mgt001371
ecs-323
cs6250
mgdi60012
mdia2012
comm221001
comm5000
ma1008
engl642
econ241
com333
math367
mis201
nbs-7041x
meek16104
econ2003
comm1190
mbas902
comp-1027
dpst1091
comp7315
eppd1033
m06
ee3025
msci231
bb113/bbs1063
fc709
comp3425
comp9417
econ42915
cb9101
math1102e
chme0017
fc307
mkt60104
5522usst
litr1-uc6201.200
ee1102
cosc2803
math39512
omp9727
int2067/int5051
bsb151
mgt253
fc021
babs2202
mis2002s
phya21
18-213
cege0012
mdia1002
math38032
mech5125
07
cisc102
mgx3110
cs240
11175
fin3020s
eco3420
ictten622
comp9727
cpt111
de114102d
mgm320h5s
bafi1019
math21112
efim20036
mn-3503
fins5568
110.807
bcpm000028
info6030
bma0092
bcpm0054
math20212
ce335
cs365
cenv6141
ftec5580
math2010
ec3450
comm1170
ecmt1010
csci-ua.0480-003
econ12-200
ib3960
ectb60h3f
cs247—assignment
tk3163
ics3u
ib3j80
comp20008
comp9334
eppd1063
acct2343
cct109
isys1055/3412
math350-real
math2014
eec180
stat141b
econ2101
msinm014/msing014/msing014b
fit2004
comp643
bu1002
cm2030
联系我们
- QQ: 9951568
© 2021
www.rj363.com
软件定制开发网!