on the crosstalk effect.. Key words: w ave guides optics, optical communication... A From 4, 5, we have the system of equations for th ree plan wave guides, as follows... ■ The distribut
Trang 1VN U JOURNAL O F S C IE N C E , Mathematics - Physics, T.XXI, N02, 2006
C R O S S T A L K E F F E C T IN THE CASE
O F TH R EE MONOMODE PLAN WAVE GUIDES
D in h V an H oang, Mai H ong H anh
College o f sciences V ietnam N a tio n a l U niversity
A b s tra c t In th is p ap er, we exam ined th e crosstalk effect in the case of th re e
monomode p ro p a g a tin g wave in th re e plan wave guides.
On th e b a sis of solving p ro p a g a tin g wave equations, we have received th e
influence of s tr u c tu r e p a r a m e te r as the refractive index difference, the le n g th s
of p r o p a g a tin g waves, th e d ia m e te r of wave guides, th e s e p a ra te d d istance
betw een two a d ja c e n t wave guides etc on the crosstalk effect.
Key words: w ave guides optics, optical communication.
L I n tr o d u c tio n
Since th e n in e tie s of la s t cen tu ry , m an k in d h a s gone into th e period of info-
b re a k out By th e te c h n iq u e WDM, one can o b tain a larg e gigabit a t far in te rv a l of optical tr a n s m is s io n line H ow ever, one of th e d efects in th is m u ltic a n a l
co m m u n icatio n is th e ex h ib itio n of c ro sstalk effect - th e pow er exchange b etw een
th e two w av es p ro p a g a tin g in two a d ja ce n t can als T h is phenom enon re s u lts in th e noise of in fo rm a tio n w hich n eed ed exclude
T he c ro s s ta lk effect h a s b een stu d ied in th e case of two a d ja ce n t c a n a ls th a t
m ay be c o n sid ere d as two p la n w ave guides [1-4]
In th is p a p e r, we h av e e n la rg e d th e re se a rc h to th e case th re e a d ja c e n t p lan
w ave guides O n th e b a sis of reso lv in g th e p ro p a g a tin g w ave eq u atio n s p re s e n te d in section 2, we h a v e m ad e a stu d y of th e influence of s tru c tu re p a ra m e te rs of wave guides as th e d iffe re n t of re fra c tiv e index, th e le n g th of p ro p ag a tin g w ave, th e
d ia m e te r of w ave g uide e tc on th e c ro sstalk in te rv a l - a c h a ra c te ristic q u a n tity of
c ro ssta lk effect T h ese r e s e a rc h ’s re s u lts h av e been in d ic ate d in section 3 A t la st,
d iscu ssio n a n d conclusions h av e given in section 4
2 B a s ic e q u a tio n s
We su p p o sed th e re a re th re e p la n w ave guides in w hich th e p la n w aves
p ro p ag a te follow ing th e Oz d irec tio n as seen in fig 1
T h ese wa-ve g u id es h a v e th e w id th s of lị, l 2ĩ /3 , th e refractiv e index n u n 2i n 3
an d s e p a r a tin g d ista n c e s of d u d 2
T he p ro p a g a tin g w aves h av e form s:
34
Trang 2C r o s s ta lk E ffect in th e C a se o f T hree M o n o m o d e P l a n W ave G u id e s 35
H ere a u a 2, a3 - c o n sta n ts, /?!, jS2, /?3 - p ro p ag a tio n c o n sta n ts, u x(y)f u 2(y), ỉ/3(y)
- am p litu d e fu n ctio n s of waves
W hen th e pow er exchange b etw een th e w ave g u id es a p p e a re d , c o n sta n ts a x become functions slowly ch an g ed by z.
T he H elm holtz e q u atio n for each wave, in th is case, h a s th e follow ing form:
H ere th e source Sm d e m o n s tra te s th e field of one w ave su ffered th e influence
of th e a n o th e r w ave Follow ing [1] we can give
2 7Ĩ
W ith k0 = — - w ave n u m b er, A - velocity of lig h t in vacu u m
A
From (4), (5), we have the system of equations for th ree plan wave guides, as follows
(6)
v 2 £ , + k fE l = - ( k ị - k 2)E 2
V 2E 2 + % E 2 = - [ ( *32 - k 2)E3 + (kỉ - k 2)E x]
V % + k%E3 = - ( k l - k 2)E 2
(7)
(8)
d2a
Solving th is sy stem of e q u a tio n s a fte r th e a p p ro x im a tio n of n e g le ctin g —
dz-ÔCL ■
before — - , we received a new sy stem of eq u atio n s:
dz
Trang 336 D inh Van Hoangy Mai Hong H a n h
^ = - j C 2la2(z)eJ
w ith
&p\ — P\ $2 > ^03 ~ Pz 02
í
2 2
k ĩ — ị? \
C 32 = 0/? I u3(y)u 2(y)dy
p2 Ả
2
c 23 = o n í u3(y)u2(y)dy
2/*3
T his system is solved n u m erica lly for d ifferen t cases, d ep en d in g on th e d iv erse form s of function Ui(y).
3 T he in flu e n c e o f s tr u c tu r e p a r a m e te r o f w a v e g u id e s o n th e c r o s s ta lk
3.1 D e f in i ti o n : C ro ssta lk in te rv a l L0 is th e in te rv a l d e te rm in e d since th e tra n sm issio n of lig h t in one w ave guide begins u n til th e pow er exchange a p p e a rs 3.2 E x p re ss io n o f f u n c t io n Uị(y) a n d v a lu e s o f p a r a m e t e r We ta k e for
function Ui(y) th e follow ing ex p ressio n s
w here A = c =1, B =1, <51=<53=1,<52=2.
N u m erical v a lu e s of p a ra m e te rs a re chosen
Ằị = Ă2 = y?3 = 133ịxm.a^ - a2 = a3 = 1 Ịum.cl^ = d 2 = d3 = 1CT4 m
nx = n 2 = n 3 = 1.5 \n = 1.4999
3.3 The influence o f r e fra c tiv e index difference on L0
U sing M atlab la n g u a g e a n d s ta r tin g from (9) - (12), we p lo tted th e curves
|a-(2)|2v e rsu s z In fig.2, a re p re s e n te d th e c u rv e s|a t(z)| w hen
An = (nx - n) = (n 2 - rt) = (n3 - n) v aries.
From figure 2 a n d ta b le 1, one can see t h a t th e d im in u tio n of An r e s u lts in th e
in crease of L 0
in te r v a l
Uj(y) = Ae s'y-,u2(y) = Be Sỉy;u3(y) = Ce s*y (12)
Trang 4C r o s s ta lk E ffect in th e C ase o f T h re e M o n o m o d e P l a n W ave G u id e s 37
T a b le 1
F ig.2 T he d iag ra m allow s to d e te rm in e th e d ep en den ce of L0 on An
3.4 The d e p e n d e n c e o f L0 on s e p a r a tin g d is ta n c e d l9 d 2
By th e sam e m eth o d of calcu latio n w ith all o th e r p a ra m e te rs rem ain in g
anchanged b u t dị v a rie s, we o b tain ed fig.3 an d ta b le 2
T a b le 2
Fig 3 T he d ia g ra m allow s to d e te rm in e th e d ep en d en ce of 0 on d lt d 2
T he receiv ed re s u lts show t h a t L0 is alm o st u n c h an g e d w hen dj v aries
Trang 538 D inh Van Hoang, M ai Hong H anh
3.5 The influence o f w a ve length on L0
In th is case, we v a rie d only th e le n g th of Aj T he re s u lts from fig.4 an d ta b le 3
in d ic ate th a t th e in c re a se of Aj will lead to in th e a u g m e n ta tio n of L0 i.e th e
c ro ssta lk effect will d im in ish a t longer w ave len g th s
T ab le 3
Fig 4 The d ia g ra m allow s to d e te rm in e th e dependence of L0 on A.
3.6 The ch a rg e o f L0 w hen a m p litu d e o f wave va ries
W hen th e a m p litu d e B of w ave p ro p a g a tin g in th e second wave guide is
v aried , we o b tain ed fig 5 a n d ta b le 4
Fig 5 T he d iag ra m allow s to d e te rm in e th e dependence of L0 on B
Trang 6C r o s s t a lk E ffect in th e C ase o f T hree M o n o m o d e P l a n W ave G u id e s 39
T a b le 4
From fig 5 an d tab le 4, L0 d ecreases by in c re a s in g B T h is show s t h a t the
stro n g in te ra c tio n b etw een th e w aves p ro p ag a tin g in 3 w ave guides re s u lts in the
in crease of c ro sstalk effect
4 D is c u s s io n an d c o n c lu s io n s
From o b tain ed re s u lts p re se n te d above, we could rev eal som e following conclusions:
- T he c ro sstalk effect d ep en d s clearly on th e ch an g e in th e s tru c tu re
p a ra m e te rs of wave guides T he m ost sen sitiv e p a ra m e te r s w hich d im in ish the influence of c ro sstalk effect a re refractiv e index d ifferen ce An a n d w ave len g th A
p ro p a g a tin g in w ave guides
■ The distribution of am plitude functions Uj can create the transform ation of
c ro sstalk effect T he o b tain ed re s u lts also in d ic ate t h a t d iffe re n t wave fu n ctio n s will give d iv erse crosstalkv effect a n d th is p o in t n eed s to be f u r th e r exam ined
- T he m eth o d of c alcu látio n used in th is p a p e r m ay be ap p lied to th e case of
m ore th a n 3 w ave guides or th e case of m ultim ode w ave guides
Reference:
1 A Y ariv, Q u a n tu m E lectronics T h ird E d itio n , J o h n W iley & Sons, N.Y 1988
2 H H u an g , Couple M ode Theory as a p p lied to Microwave a n d O ptical
T ra n sm issio n , N e th e rla n d s 1984.
3 T T a m ir, G u id ed Wave O ptoelectronics, S p rin g e r-V e rla g N.Y 1990
4 B.E.A S aleh , M c Teich, F u n d a m e n ta ls o f p h o to n ic s, J o h n W illey & Sons N Y
1991