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QWI-based ICs for EDFA pump lasers
News Update
Latest developments in Raman amplification F u r u k a w a s }TILL T e c h n o l o g k ~
A g e r e S y s t e m s (Breinigsvitle,
(Clinton, ~l, USA) has o p e n e d it
PA. 1 SA) - lormerlv t h e
->
12,000 ft- 1 ) e v e l o p m e n t C e n t e r
Microelectronics (;rotlp of
QWI-based ICs for EDFA pump lasers
in Warwick, RI, USA ( e m p h ) y i n g
I,tlcent T e c h n o l o g i e s - h a s
a b o n t I11 staff) for tile R&D of
l a u n c h e d an L-band l{anlan
n e x t - g e n e r a t i o n EI)FAs and
pun~p n]odule. It is i n t e n d e d R)r
R a m a n amplifiers (in c o n j u n c -
use w i t h EI)FAs (either cxter-
up I n t e n s e P h o t o n i c s
tion w i t h its affiliate Opt{gain
nalh' or physic'till integrated ,Is
((;lasgm~, Scotland. t K ) is to
part of t h e pre-amplifier section
d e m o n s t r a t e its q u a n t t u n well
l n c of Peace Dale, R1, { !SA). "By focusing (Ill Ranlan technologies, w e ' r e p r o v i d i n g o u r c u s t o m e r s with a flexible solution to e x p a n d existing networks", says Raja Parvcz, presid e n t of Opt{gain and tile n e w d e v e l o p m e n t lhcility.
of an EI)FA) to il'nprove signal perlormancc and lengthen
Monolithic p h o t o n i c s IC s t a r t
intermixing process (developed ()xer
n l o r e t h a n a d e c a d e at t h e
t r a n s m i s s i o n dist:mces of ter-
llniversity of Glasgow) with
abits of data betx~een
Q W l - b a s e d ICs R~r existing
repeaters. P r o d u c t i o n quantities
I)WDM applicati(ms, starting
are e x p e c t e d in (,)3/2OO1,
with 980 nnl H)FA p u m p lasers
C-band m o d u l e s will also be
(to be h m n c h e d in late 2001 ).
available. Agere is also oflk~ring
T h e QWI p r o c e s s allows multi-
Fitel has l a u n c h e d a flfll suite of
,t n e w COlnpatible, dynan]ic
l~unctiotl d e v i c e s to bc labricat-
t e c h n o l o g i e s to s u p p o r t R a m a n
gain equalization filter.
cd w i t h o u t using statldard
"['he m o d u l e c o m b i n e s nlultiple
l e c h n i q n e s t e c h n i q u e s and
lnP-based I t x x n m p u m p lasers
i m p r o v e s p c r f o r n l a n e e and
( l l l a d c ill VOlL|ll/e u s i n g a c c , nl-
viekl.
i l i o n a t l t o m a t e d l a s e r [ll,nltlJ~lc-
By i n c o r p o r a t i n g n o n - a b s o r b -
amplification, including 14xx n m p u m p lasers w h i c h s u p p l y t h e qOt) m W optical o u t p u t p o w e r n e e d e d R)r signal amplification within tile fibre, Samples mod-
turing platfl)rm) integrated in
ing m i r r o r s t r u c t u r e s o n
tile s,unc p a c k a g e as a range o f
d e v i c e l ) c e t s (to b o o s t optical
R a m a n :mll)lification requires
passive optical c o m p o n e n t s
p o w e r a n d reliabilit} by min-
t h e use of p o w e r f u l p u m p
( i n c l u d i n g taps, isolators and
inlising c a t a s t r o p h i c optical
m o d u l e s to create amplification
c o m b i n e r s , w h i c h arc m a d e
m i r r o r danlJ.ge), I n t e n s e
a l o n g tile core of tile tntnsnlis-
u s i n g in-house thin-fihn filter
P h o t o n i c s h a s l,lbricatcd F,DFA
sion fibre, with t h e p u m p emis-
t e c h n o l o g y acquired last ~ear
p u n l p lasers in t h e lab w h i c h
sion f u s e d v d t h tile laser-
from H e r r n l a n n ] k c h n o l o g } ).
o f l ) r p o w e r s of u p to ~()O m W
ules will be available in J u n e .
l a u n c h e d line signal.The Ram;m dispersion p r o c e s s links the two different w a v d e n g t h s within the fibre core, transferring t h e e n e p gy from t h e Iower-vvavelength p h o t o n to tile longer-wavelength
p h o t o n . T h i s p h e n o m e n o n h.'ts a non-linear effect p r o p o r t i o n a l to t h e p o w e r density in the fibre. C o m p a r e d to e r b i u m * d o p e d
A i e a t d O p t r o n i c s ( Paris. Fnmce) has launched
a
- a h n o s t dotlble c u r r e n t conln]ercial p r o d u c t s . T h e novel
complete
R a m a n anq~lification p r o d u c t line k)r all t y p e s o f c u r r e n t single-mode fibre o f h i g h - s p e e d (Tb/s) terrestrial m e t r o p o l i t a n . long-haul a n d ultraqong-haul I)WI)M t r a n s m i s s i o n systcnts.
d e s i g n is e x p e c t e d to redtlce t h e cost <)f n l a n t l ( a c t t l r i n g H)FA gain m o d u l e s , a n d supp o r t tile e x t e n s i o n of optical n e t w o r k i n g into metro markets. QWI t e c h n o l o g y h a s already
T h e line includes:
becll u s e d to c r e a t e n l t l n y discrete a n d n l u l t i p l e - f u n c t i o n
fibre amplifiers (EI)FAs), R a m a n
• tile 3t)1t m\V 1943 RAP Raman
,'tmplification r e d u c e s tile n o i s e
amplification p u m p ntodulc (li)r
inonolithic conlponcnts
figure, offering a flexible gain
1390-1S 10 n m S. C and I. bands):
( i n c l u d i n g lasers, SOAs,
profile a n d e n h a n c i n g gain flatn e s s . T h i s enables higher chantie] coutltS, taster t r a n s m i s s i o n
s p e e d s and h m g e r d i s t a n c e s b e t w e e n r e g e n e r a t i o n sites for
filters a n d s w i t c h e s ) . • tile C-band 1922 ()FA and tile
p r o v i d i n g a p l a t f o r m for
b b a n d 1932 ()FA Ran]an optical
I)~'I)M t r a n s m i s s i o n s y s t e m s .
amplifier s u b s y s t e m s : w h i c h
routers and switches.
can be u s e d x~ittl the I n t e n s e P h o t o n i c s is s u p p o r t e d
system manufacturers,This cuts
• 8t)(t m\V 19{8 MPM Raman
ovenllI s y s t e m c o s t s d u e to t h e
n m l t i - p u m p Tnodul¢ ( w h i c h
p e n d e n t c o m p o u n d semic()n-
r e d u c t i o n in in-line e q u i p m e n t ,
c o n t a i n s all electronic ftlnction
d u c t o r fimndry.
especially R~r high-speed ( 1 0
to
and 40 Gb/s) m m s m i s s i o n ,
bility),
by an alliance w i t h an inde-
control its len]perature sta-
tlI-Vs REVIEW
VOL 14 - NO 3 "April 2oo~
Latest developments in Raman amplification F u r u k a w a s }TILL T e c h n o l o g k ~
A g e r e S y s t e m s (Breinigsvitle,
(Clinton, ~l, USA) has o p e n e d it
PA. 1 SA) - lormerlv t h e
->
12,000 ft- 1 ) e v e l o p m e n t C e n t e r
Microelectronics (;rotlp of
QWI-based ICs for EDFA pump lasers
in Warwick, RI, USA ( e m p h ) y i n g
I,tlcent T e c h n o l o g i e s - h a s
a b o n t I11 staff) for tile R&D of
l a u n c h e d an L-band l{anlan
n e x t - g e n e r a t i o n EI)FAs and
pun~p n]odule. It is i n t e n d e d R)r
R a m a n amplifiers (in c o n j u n c -
use w i t h EI)FAs (either cxter-
up I n t e n s e P h o t o n i c s
tion w i t h its affiliate Opt{gain
nalh' or physic'till integrated ,Is
((;lasgm~, Scotland. t K ) is to
part of t h e pre-amplifier section
d e m o n s t r a t e its q u a n t t u n well
l n c of Peace Dale, R1, { !SA). "By focusing (Ill Ranlan technologies, w e ' r e p r o v i d i n g o u r c u s t o m e r s with a flexible solution to e x p a n d existing networks", says Raja Parvcz, presid e n t of Opt{gain and tile n e w d e v e l o p m e n t lhcility.
of an EI)FA) to il'nprove signal perlormancc and lengthen
Monolithic p h o t o n i c s IC s t a r t
intermixing process (developed ()xer
n l o r e t h a n a d e c a d e at t h e
t r a n s m i s s i o n dist:mces of ter-
llniversity of Glasgow) with
abits of data betx~een
Q W l - b a s e d ICs R~r existing
repeaters. P r o d u c t i o n quantities
I)WDM applicati(ms, starting
are e x p e c t e d in (,)3/2OO1,
with 980 nnl H)FA p u m p lasers
C-band m o d u l e s will also be
(to be h m n c h e d in late 2001 ).
available. Agere is also oflk~ring
T h e QWI p r o c e s s allows multi-
Fitel has l a u n c h e d a flfll suite of
,t n e w COlnpatible, dynan]ic
l~unctiotl d e v i c e s to bc labricat-
t e c h n o l o g i e s to s u p p o r t R a m a n
gain equalization filter.
cd w i t h o u t using statldard
"['he m o d u l e c o m b i n e s nlultiple
l e c h n i q n e s t e c h n i q u e s and
lnP-based I t x x n m p u m p lasers
i m p r o v e s p c r f o r n l a n e e and
( l l l a d c ill VOlL|ll/e u s i n g a c c , nl-
viekl.
i l i o n a t l t o m a t e d l a s e r [ll,nltlJ~lc-
By i n c o r p o r a t i n g n o n - a b s o r b -
amplification, including 14xx n m p u m p lasers w h i c h s u p p l y t h e qOt) m W optical o u t p u t p o w e r n e e d e d R)r signal amplification within tile fibre, Samples mod-
turing platfl)rm) integrated in
ing m i r r o r s t r u c t u r e s o n
tile s,unc p a c k a g e as a range o f
d e v i c e l ) c e t s (to b o o s t optical
R a m a n :mll)lification requires
passive optical c o m p o n e n t s
p o w e r a n d reliabilit} by min-
t h e use of p o w e r f u l p u m p
( i n c l u d i n g taps, isolators and
inlising c a t a s t r o p h i c optical
m o d u l e s to create amplification
c o m b i n e r s , w h i c h arc m a d e
m i r r o r danlJ.ge), I n t e n s e
a l o n g tile core of tile tntnsnlis-
u s i n g in-house thin-fihn filter
P h o t o n i c s h a s l,lbricatcd F,DFA
sion fibre, with t h e p u m p emis-
t e c h n o l o g y acquired last ~ear
p u n l p lasers in t h e lab w h i c h
sion f u s e d v d t h tile laser-
from H e r r n l a n n ] k c h n o l o g } ).
o f l ) r p o w e r s of u p to ~()O m W
ules will be available in J u n e .
l a u n c h e d line signal.The Ram;m dispersion p r o c e s s links the two different w a v d e n g t h s within the fibre core, transferring t h e e n e p gy from t h e Iower-vvavelength p h o t o n to tile longer-wavelength
p h o t o n . T h i s p h e n o m e n o n h.'ts a non-linear effect p r o p o r t i o n a l to t h e p o w e r density in the fibre. C o m p a r e d to e r b i u m * d o p e d
A i e a t d O p t r o n i c s ( Paris. Fnmce) has launched
a
- a h n o s t dotlble c u r r e n t conln]ercial p r o d u c t s . T h e novel
complete
R a m a n anq~lification p r o d u c t line k)r all t y p e s o f c u r r e n t single-mode fibre o f h i g h - s p e e d (Tb/s) terrestrial m e t r o p o l i t a n . long-haul a n d ultraqong-haul I)WI)M t r a n s m i s s i o n systcnts.
d e s i g n is e x p e c t e d to redtlce t h e cost <)f n l a n t l ( a c t t l r i n g H)FA gain m o d u l e s , a n d supp o r t tile e x t e n s i o n of optical n e t w o r k i n g into metro markets. QWI t e c h n o l o g y h a s already
T h e line includes:
becll u s e d to c r e a t e n l t l n y discrete a n d n l u l t i p l e - f u n c t i o n
fibre amplifiers (EI)FAs), R a m a n
• tile 3t)1t m\V 1943 RAP Raman
,'tmplification r e d u c e s tile n o i s e
amplification p u m p ntodulc (li)r
inonolithic conlponcnts
figure, offering a flexible gain
1390-1S 10 n m S. C and I. bands):
( i n c l u d i n g lasers, SOAs,
profile a n d e n h a n c i n g gain flatn e s s . T h i s enables higher chantie] coutltS, taster t r a n s m i s s i o n
s p e e d s and h m g e r d i s t a n c e s b e t w e e n r e g e n e r a t i o n sites for
filters a n d s w i t c h e s ) . • tile C-band 1922 ()FA and tile
p r o v i d i n g a p l a t f o r m for
b b a n d 1932 ()FA Ran]an optical
I)~'I)M t r a n s m i s s i o n s y s t e m s .
amplifier s u b s y s t e m s : w h i c h
routers and switches.
can be u s e d x~ittl the I n t e n s e P h o t o n i c s is s u p p o r t e d
system manufacturers,This cuts
• 8t)(t m\V 19{8 MPM Raman
ovenllI s y s t e m c o s t s d u e to t h e
n m l t i - p u m p Tnodul¢ ( w h i c h
p e n d e n t c o m p o u n d semic()n-
r e d u c t i o n in in-line e q u i p m e n t ,
c o n t a i n s all electronic ftlnction
d u c t o r fimndry.
especially R~r high-speed ( 1 0
to
and 40 Gb/s) m m s m i s s i o n ,
bility),
by an alliance w i t h an inde-
control its len]perature sta-
tlI-Vs REVIEW
VOL 14 - NO 3 "April 2oo~