US2008205839A1PendingUtilityA1

Large effective area high SBS threshold optical fiber

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Assignee: BICKHAM SCOTT ROBERTSONPriority: Feb 28, 2007Filed: Feb 15, 2008Published: Aug 28, 2008
Est. expiryFeb 28, 2027(~0.6 yrs left)· nominal 20-yr term from priority
G02B 6/02276G02B 6/0365G02B 6/02014G02B 6/02333G02B 6/03611G02B 6/02242G02B 6/02357G02B 6/02271G02B 6/03688
49
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Claims

Abstract

Microstructured optical fiber for transmitting optical signals comprised of light, the optical fiber including a core region and a cladding region surrounding the core region, the cladding region including at least one annular region having an index of refraction lower than that of the remainder of the cladding. The optical fiber provides an absolute SBS threshold in dBm greater than about 9.3+10 log [(1−e −(0.19)(50)/4.343 )/(1−e −(α)(L)/4.343 )], wherein L is the length in km and α is the attenuation in dB/km at 1550 nm, and a fiber cutoff wavelength of less than 1400 nm.

Claims

exact text as granted — not AI-modified
1 . An optical fiber for transmitting optical signals comprised of light, the optical fiber comprising:
 a core region disposed about a longitudinal centerline and having a refractive index profile with a first refractive index, and   a cladding region surrounding the core region, the cladding region comprising at least one annular region having an index of refraction lower than that of the remainder of the cladding;   wherein the refractive index of the core is selected to provide: an absolute SBS threshold in dBm greater than about 9.3+10 log [(1−e −(0.19)(50)4.343 )/(1−e −(α)(L)/4.343 )], wherein L is the length in km and α is the attenuation in dB/km at 1550 nm wherein the optical fiber has a fiber cutoff of less than 1400 nm.   
   
   
       2 . The optical fiber of  claim 1 , wherein the refractive index of the core is selected to provide: an absolute SBS threshold in dBm greater than about 9.8+10 log [(1−e −(0.19)(50)/4.343 )/(1e −(α)(L)/4.343 )], wherein L is the length in km and α is the attenuation in dB/km at 1550 nm. 
   
   
       3 . The optical fiber of  claim 1 , wherein said at least one annular region in said cladding comprises fluorine. 
   
   
       4 . The optical fiber of  claim 1 , wherein said at least one annular region in said cladding is formed by non-periodically disposed holes in said annular region. 
   
   
       5 . The optical fiber of  claim 1 , wherein the core region comprises a central region having a maximum relative refractive index Δ 1MAX , an intermediate region surrounding and directly adjacent the central region, the intermediate region having a minimum relative refractive index Δ 2MIN , and an outer region surrounding and directly adjacent the intermediate region, the outer region having a maximum relative refractive index Δ 3MAX , wherein Δ 1MAX >Δ 2MIN  and Δ 3MAX >Δ 2MIN . 
   
   
       6 . The optical fiber of  claim 1  wherein the optical fiber exhibits a cable cutoff of less than 1260 nm. 
   
   
       7 . The optical fiber of  claim 1  wherein the optical fiber exhibits a 20 mm macrobend induced loss of less than 0.5 dB/turn at 1550 nm. 
   
   
       8 . The optical fiber of  claim 1  wherein the optical fiber exhibits a 10 mm macrobend induced loss of less than 5 dB/turn at 1550 nm. 
   
   
       9 . The optical fiber of  claim 1  wherein the optical fiber exhibits a zero dispersion wavelength of less than 1350 nm. 
   
   
       10 . The optical fiber of  claim 1  wherein the non-periodically disposed holes have a maximum diameter of less than 2000 nm. 
   
   
       11 . The optical fiber of  claim 1  wherein the non-periodically disposed holes have a mean diameter of less than 2000 nm. 
   
   
       12 . The optical fiber of  claim 1  wherein the annular hole-containing region has a maximum radial width of less than 10 microns. 
   
   
       13 . The optical fiber of  claim 1  wherein the annular hole-containing region has a regional void area percent of less than 20 percent. 
   
   
       14 . A microstructured optical fiber for transmitting optical signals comprised of light, the optical fiber comprising:
 a core region disposed about a longitudinal centerline, and   a cladding region surrounding the core region, the cladding region comprising an annular hole-containing region comprised of non-periodically disposed holes;   wherein the annular hole-containing region has a maximum radial width of less than 10 microns;   wherein the annular hole-containing region has a regional void area percent of less than 30 percent; and wherein the refractive index of the core is selected to provide: an absolute SBS threshold in dBm greater than about 9.3+10 log [(1−e −(0.19)(50)/4.343 )/(1−e −(α)(L)/4.343 )], wherein L is the length in km and α is the attenuation in dB/km at 1550 mn.   
   
   
       15 . The optical fiber of  claim 14  wherein the annular hole-containing region has a maximum radial width of greater than 0.5 microns and less than 10 microns, and the non-periodically disposed holes have a mean diameter of less than 1550 nm. 
   
   
       16 . The optical fiber of  claim 14  wherein the annular hole-containing region has a regional void area percent of greater than 0.05 percent and less than 20 percent. 
   
   
       17 . The optical fiber of  claim 14  wherein the non-periodically disposed holes have a mean diameter of greater than 1 nm and less than 1550 nm. 
   
   
       18 . The optical fiber of  claim 14  wherein the non-periodically disposed holes have a maximum diameter of less than 2000 nm. 
   
   
       19 . The optical fiber of  claim 14  wherein said cladding region further comprises:
 an inner annular hole-free region disposed between the core region and the annular hole-containing region; and   an outer annular hole-free region surrounding and directly adjacent the annular hole-containing region.   
   
   
       20 . The optical fiber of  claim 14  wherein the inner annular hole-free region has a radial width greater than 1 μm.

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