Abstract

The imaging capabilities of a multicore microstructured polymer optical fibre with a square array of 112 air holes are demonstrated. Coherent imaging is achieved either by guiding light in polymer cores between air holes, or by guiding light in the air channels themselves. This potentially provides a miniaturised endoscope for medical applications, or a two-dimensional parallel optical data link for high-bandwidth interconnects.

© 2004 Optical Society of America

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References

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  1. E. Hecht, Optics,Addison-Wesley Publishing (Reading, Massachusetts, 1987) 172
  2. W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.
  3. Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
    [Crossref]
  4. T Maj, A G. Kirk, D V. Plant, J F. Ahadian, C G. Fonstad, K L. Lear, K Tatah, M S. Robinson, and J A. Trezza, “Interconnection of a two-dimensional array of vertical cavity surface emitting lasers to a receiver array via a fiber image guide,” Appl. Opt. 39, 683–9 (2000)
    [Crossref]
  5. M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
    [Crossref]
  6. M A van Eijkelenborg, M C J Large, A Argyros, J Zagari, S Manos, N A Issa, I Bassett, S Fleming, R C McPhedran, C M de Sterke, and N A P Nicorovici, “Microstructured polymer optical fibre,” Opt. Express 9, 319–27 (2001), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-9-7-319
    [Crossref] [PubMed]
  7. J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
    [Crossref]
  8. N A. Issa, A Argyros, M A. van Eijkelenborg, and J Zagari, “Identifying hollow waveguide guidance in air-cored microstructured optical fibres,” Opt. Express 11, 996–1001 (2003), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-11-9-996
    [Crossref] [PubMed]

2003 (2)

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

N A. Issa, A Argyros, M A. van Eijkelenborg, and J Zagari, “Identifying hollow waveguide guidance in air-cored microstructured optical fibres,” Opt. Express 11, 996–1001 (2003), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-11-9-996
[Crossref] [PubMed]

2001 (1)

2000 (2)

1995 (1)

Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
[Crossref]

Ahadian, J F.

Argyros, A

Arriaga, J.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Barton, G

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Bassett, I

Bassett, I M

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Birks, T. A.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Daum, W.

W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.

de Sterke, C M

Faudskar, C C

Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
[Crossref]

Fellew, M

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Fleming, S

Fonstad, C G.

Hecht, E.

E. Hecht, Optics,Addison-Wesley Publishing (Reading, Massachusetts, 1987) 172

Henry, G

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Issa, N A

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

M A van Eijkelenborg, M C J Large, A Argyros, J Zagari, S Manos, N A Issa, I Bassett, S Fleming, R C McPhedran, C M de Sterke, and N A P Nicorovici, “Microstructured polymer optical fibre,” Opt. Express 9, 319–27 (2001), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-9-7-319
[Crossref] [PubMed]

Issa, N A.

Kirk, A G.

Knight, J. C.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Krauser, J.

W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.

Large, M C J

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

M A van Eijkelenborg, M C J Large, A Argyros, J Zagari, S Manos, N A Issa, I Bassett, S Fleming, R C McPhedran, C M de Sterke, and N A P Nicorovici, “Microstructured polymer optical fibre,” Opt. Express 9, 319–27 (2001), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-9-7-319
[Crossref] [PubMed]

Lear, K L.

Maj, T

Manos, S

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

M A van Eijkelenborg, M C J Large, A Argyros, J Zagari, S Manos, N A Issa, I Bassett, S Fleming, R C McPhedran, C M de Sterke, and N A P Nicorovici, “Microstructured polymer optical fibre,” Opt. Express 9, 319–27 (2001), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-9-7-319
[Crossref] [PubMed]

McPhedran, R C

Muehlner, D J

Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
[Crossref]

Nicorovici, N A P

Ortigosa-Blanch, A.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Padden, W

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Plant, D V.

Poladian, L

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Robinson, M S.

Russell, P. St. J.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Tatah, K

Trezza, J A.

van Eijkelenborg, M A

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

M A van Eijkelenborg, M C J Large, A Argyros, J Zagari, S Manos, N A Issa, I Bassett, S Fleming, R C McPhedran, C M de Sterke, and N A P Nicorovici, “Microstructured polymer optical fibre,” Opt. Express 9, 319–27 (2001), http://www.opticsexpress.org/abstract.cfm?URI=OPEX-9-7-319
[Crossref] [PubMed]

van Eijkelenborg, M A.

Wadsworth, W. J.

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

Wong, Y-M

Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
[Crossref]

Zagari, J

Zamzow, P.E.

W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.

Ziemann, O.

W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.

Appl. Opt. (1)

IEEE Phot. Tech. Lett. (1)

J. C. Knight, J. Arriaga, T. A. Birks, A. Ortigosa-Blanch, W. J. Wadsworth, and P. St. J. Russell, “Anomalous Dispersion in Photonic Crystal Fiber,” IEEE Phot. Tech. Lett. 12, 807–9 (2000)
[Crossref]

J. Lightwave Tech. (1)

Y-M Wong, D J Muehlner, and C C Faudskar, et. al. “Technology development of a high-density 32-channel 16-Gb/s optical data link for optical interconnection applications for the optoelectronic technology consortium (OETC),” J. Lightwave Tech. 13, 995–1016 (1995)
[Crossref]

Opt. Express (2)

Opt. Fiber Tech. (1)

M A van Eijkelenborg, A Argyros, G Barton, I M Bassett, M Fellew, G Henry, N A Issa, M C J Large, S Manos, W Padden, L Poladian, and J Zagari, “Recent progress in microstructured polymer optical fibre fabrication and characterization,” Opt. Fiber Tech. 9, 199–209 (2003)
[Crossref]

Other (2)

E. Hecht, Optics,Addison-Wesley Publishing (Reading, Massachusetts, 1987) 172

W. Daum, J. Krauser, P.E. Zamzow, and O. Ziemann, POF Polymer Optical FIbers for Data Communication (Springer Verlag Berlin2002), 63–6.

Supplementary Material (2)

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Figures (3)

Fig. 1.
Fig. 1.

Microscope image of a multicore 800 µm diameter microstructured polymer optical fibre with a 42 µm hole spacing.

Fig. 2.
Fig. 2.

(Movie 256kB. Imaging MPOF.) Movie of solid-core imaging. CCD camera image of the exit face of the fibre for uniform illumination (left) and with a C shaped screen in front of the white light source.

Fig. 3.
Fig. 3.

(Movie 807kB. Imaging mPOF air guide.) CCD camera image of the exit face of a 20 cm long fibre of 800 µm diameter demonstrating the hollow-waveguide imaging function (imaging of a single a pinhole).

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