US2009324159A1PendingUtilityA1

Optical chiral fiber isolator and method of fabrication thereof

Assignee: CHIRAL PHOTONICS INCPriority: Jun 26, 2008Filed: Jun 26, 2009Published: Dec 31, 2009
Est. expiryJun 26, 2028(~1.9 yrs left)· nominal 20-yr term from priority
G02F 1/0955H01F 7/0273
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Claims

Abstract

The present invention provides an optical in-fiber chiral fiber isolator, capable of transmitting a signal of a predetermined optical polarization in a forward direction therethrough, while rejecting all signals traveling in a backward direction therethrough, and a method of fabrication thereof. In one exemplary embodiment, the inventive optical chiral fiber isolator includes a chiral magneto-optical fiber having a helical pitch profile, a birefringence profile, and an effective Verdet constant profile, at least a portion of which is exposed to a magnetic field of a predetermined magnetic field profile (generated by a proximal magnetic field source), where the magnetic field profile, the chiral pitch profile, the birefringence profile, and the effective Verdet constant profile are selected and configured such that the inventive isolator is capable of transmitting a signal of a predetermined optical polarization in a direction from its input end toward its output end, and to reject all signals in a direction from its output end to its input end.

Claims

exact text as granted — not AI-modified
1 . An optical chiral fiber isolator comprising:
 a chiral magneto-optical fiber, having a first end and a second end, having a helical pitch profile, a birefringence profile, and an effective Verdet constant profile; and   a magnetic field source operable to expose at least a portion of said chiral magneto-optical fiber to a magnetic field of a predetermined magnetic field profile, wherein said magnetic field profile, said chiral pitch profile, said birefringence profile, and said effective Verdet constant profile are selected and configured such that said isolator is operable to transmit a signal of a predetermined optical polarization in a direction from said first end toward said second end, and to reject all signals in a direction from said second end toward said first end.   
   
   
       2 . The optical chiral fiber isolator, for transmitting a signal of a predetermined optical polarization in a forward direction and for rejecting signals in a backward direction, comprising:
 a first and a second scattering sections operable, to scatter the signal of an orthogonal polarization, which is orthogonal to said predetermined optical polarization, in a direction away from said fiber core; and   a third non-reciprocal polarization conversion section, positioned between said first and said second sections, being operable to:
 convert a backward propagating signal of said predetermined polarization into a signal of said orthogonal polarization; and 
 ensure that a forward propagating signal comprises the same said predetermined polarization upon entry into, and upon exit from, said third non-reciprocal polarization conversion section. 
   
   
   
       3 . The optical chiral fiber isolator of  claim 2 , wherein said third polarization conversion section comprises a fiber having magneto-optical properties and having a predetermined conversion length exposed to a magnetic field, wherein said predetermined conversion length is selected and configured to ensure that said backward propagating signal of said predetermined polarization is converted to a signal of said orthogonal polarization when passing through said third polarization conversion section in the backward direction, and to ensure that said forward propagating signal comprises the same said predetermined polarization upon entry into, and upon exit from, said third non-reciprocal polarization conversion section when traveling in the forward direction. 
   
   
       4 . The optical chiral fiber isolator of  claim 2  in which said first and second said scattering sections are chiral polarizers. 
   
   
       5 . The optical chiral fiber isolator of  claim 2  further comprising a fourth conversion section longitudinally proximal to said first scattering section, operable to convert a signal of an input polarization into said signal of said predetermined polarization. 
   
   
       6 . The optical chiral fiber isolator of  claim 2  further comprising a fifth conversion section longitudinally proximal to said second scattering section operable to convert a signal of said predetermined polarization into a signal of a desired output polarization. 
   
   
       7 . The optical chiral fiber isolator of  claim 5 , in which said input polarization is a linear polarization. 
   
   
       8 . The optical chiral fiber isolator of  claim 6 , in which said output polarization is a linear polarization. 
   
   
       9 . The optical chiral fiber isolator of  claim 2 , in which said predetermined polarization is an elliptical polarization. 
   
   
       10 . The optical chiral fiber isolator of  claim 3 , in which said third non-reciprocal polarization conversion section comprises a predetermined birefringence profile along said third section length. 
   
   
       11 . The optical chiral fiber isolator of  claim 10  in which said predetermined conversion length, said birefringence profile, an effective Verdet constant profile, a magnitude of said magnetic field, and magnitudes of said magneto-optical properties are selected and configured such that said third non-reciprocal polarization conversion section is operable to convert a backward propagating signal of said predetermined polarization into a signal of said orthogonal polarization, and is further operable to ensure that said forward propagating signal comprises the same said predetermined polarization upon entry into, and upon exit from, said third non-reciprocal polarization conversion section. 
   
   
       12 . The optical chiral fiber isolator of  claim 11 , wherein said third non-reciprocal polarization conversion section comprises a vanishing core optical fiber. 
   
   
       13 . The optical chiral fiber isolator of  claim 2 , wherein at least two of said first and said second scattering sections, and said third non-reciprocal polarization conversion section, are formed as a single elongated optical fiber structure 
   
   
       14 . The optical chiral fiber isolator of  claim 2 , further comprising:
 a fourth conversion section longitudinally proximal to said first scattering section, operable to convert a signal of an input polarization into a signal of said predetermined polarization; and   a fifth conversion section longitudinally proximal to said second scattering section operable to convert a signal of said predetermined polarization into a signal of a desired output polarization, wherein at least two of said first and said second scattering sections, said third non-reciprocal polarization conversion section, and said fourth and said fifth conversion sections are formed as a single elongated optical fiber structure   
   
   
       15 . The optical chiral fiber isolator of  claim 3 , wherein said third non-reciprocal polarization conversion section comprises a predetermined pitch profile.

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