Won-Taek Han, a professor of the department of Information and communications at GIST, and Pramod R. Watekar as a research professor,&nbsp; and his Ph. D student Seongmin Ju, presented a paper of ""Design and development of a trenched optical fiber with ult" /> GIST Excellence< News <Media Center
본문 바로가기 사이드메뉴 바로가기 주메뉴 바로가기

Media Center

A multimedia mosaic of moments at GIST

GIST Excellence

Fiber fabrication: Single-mode fiber has very low bending loss

  • 김효정
  • REG_DATE : 2009.09.23
  • HIT : 1720

<P><SPAN style="FONT-SIZE: 11pt">Won-Taek Han, a professor of the department of Information and communications at GIST, and Pramod R. Watekar as a research professor,&nbsp; and his Ph. D student Seongmin Ju, presented a paper of ""Design and development of a trenched optical fiber with ultra-low bending loss," in the Optics Express 2009. </SPAN></P>

<P><SPAN style="FONT-SIZE: 11pt"></SPAN>&nbsp;</P>

<P><SPAN style="FONT-SIZE: 11pt">Recently, Laser Focus World announced the Professor Han"s research work in the World News of the August issue entitled "FIBER FABRICATION: Single-mode fiber has very low bending loss" .</SPAN></P><SPAN style="FONT-SIZE: 11pt">

<P><IMG border=0 alt="" src="http://ewww.gist.ac.kr/bbs/pds/editor/1c1927f83daaddb1e4eed5740ab76372.jpg" width=265 height=346></P>

<P>&nbsp;Prof.<SPAN style="FONT-SIZE: 11pt">Won-Taek Han</SPAN></P>

<P><BR><SPAN style="FONT-FAMILY: 굴림체; FONT-SIZE: 11pt">The following is the summary of the paper:<BR><BR>One can imagine the twists and turns taken by an optical fiber as it is routed in a fiber-to-the-home application. To lessen the problems that arise from kinks, researchers are developing fibers that, when bent in a small radius, don’t break and don’t lose much in light transmission (these are two mostly separate research efforts). Now, scientists at the Gwangju Institute of Science and Technology (GIST; Gwangju, South Korea) have created a single-mode fiber that has a bending loss of only 0.014 dB/loop at 1550 nm for a bending radius of 5 mm.<BR><BR>Two approaches can be used to reduce bending loss in a fiber: adding a low-refractive-index “trench” within the cladding, and optimizing the mode-field diameter (MFD); the GIST group has used both. Prior to fabrication, the design required extensive optimization to keep other parameters such as the absolute dispersion and the dispersion slope within preset limits.<BR><BR>The maximum core index of the design was 1.456 (at 1550 nm), while the dip in index for the trench was 0.002. The researchers chose fluorine doping for the trench because the alternative doping element, boron, would diffuse too far into the surrounding regions. The core radius was 3.05 µm, while the MFD at 1550 nm was 7.7 µm.<BR><BR>The dependence of bending loss for an experimental fiber (at a bending radius of 5 mm and a wavelength of 1550 nm) reaches a theoretical minimum when b/a is 2.12. The b/a for the fabricated fiber was very different–0.98–but the bending loss was only slightly higher than the minimum. <BR><BR>The Gwangju researchers had to take into account the idiosyncrasies of the modified-chemical-vapor-deposition (MCVD) technique commonly used to fabricate fiber preforms, and used to create the preform for the experimental fiber. Normally, a fiber fabricated via MCVD shows a pronounced dip in refractive index at the center of its core; as a precaution, the researchers chose the worst-case scenario, in which the central dip in the core’s index reaches all the way down to the cladding index value, and used that in their design. A preform with a germanosilicate glass composition for the experimental fiber was fabricated using MCVD; the fiber was drawn from the preform at a temperature of 2000°C to a diameter of 125 µm. <BR>&nbsp;<BR>And indeed, a measurement of the fiber’s refractive-index profile showed that the central dip in the core’s index had a value only slightly higher than that of the cladding. The fiber had a cutoff wavelength of about 1350 µm.<BR><BR>To measure the bending loss at different wavelengths, the researchers spliced two 1 m lengths of standard single-mode fiber (SMF) to a 2 m length of the experimental fiber. The input was a 1300 to 1650 nm spectral band from an amplified-spontaneous-emission source; the output was directed into an optical spectrum analyzer. In addition to the low results at 1550 nm, the fiber showed a 0.044 dB/loop bending loss at 1625 nm and 5 mm radius.<BR><BR>The fiber design also proved to be tolerant of imperfections in fabrication. For example, the design showed that b/a, where b is the distance from the outside of the core to the inner trench wall and a is the radius of the core, should ideally be 2.12; at this value, the bending loss would theoretically be 0.0123 dB/loop at 1550 nm. <BR>&nbsp;<BR>However, when the fiber was fabricated, b/a was actually only 0.98. Even so, the actual bending loss reached only 0.014 dB/loop (see figure). The researchers also found that the splicing loss of the experimental fiber to standard SMF (using a standard fusion splicer) reached an average value of 0.376 dB and a maximum of 0.467 dB. This is higher than that for SMF-to-SMF splices, but in practical use is offset by the reduction in bending loss, say the researchers. <BR>&nbsp;<BR>This relatively minor splicing loss is important for real-life applications, where every length of bend-insensitive optical fiber must at some point be spliced to standard SMF.</SPAN></P>

<P><SPAN style="FONT-FAMILY: 굴림체; FONT-SIZE: 11pt"></SPAN>&nbsp;</P><SPAN style="FONT-FAMILY: 굴림체; FONT-SIZE: 11pt">

<P style="TEXT-ALIGN: justify; LINE-HEIGHT: 150%; TEXT-INDENT: 0px; MARGIN: 0px; FONT-FAMILY: "휴먼명조"; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt">*News information </SPAN></P>

<P style="TEXT-ALIGN: justify; LINE-HEIGHT: 150%; TEXT-INDENT: 0px; MARGIN: 0px; FONT-FAMILY: "휴먼명조"; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt">: (FIBER FABRICATION: Single-mode fiber has very low bending loss)</SPAN> </P>

<P style="TEXT-ALIGN: justify; LINE-HEIGHT: 150%; TEXT-INDENT: 0px; MARGIN: 0px 0px 0px 77px; FONT-FAMILY: "휴먼명조"; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"><A href="http://www.laserfocusworld.com/display_article/367029/12/none/none/News/FIBER-FABRICATION:-Single-mode-fiber-has-very-low-bending-los" target=_blank><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #800080; FONT-SIZE: 12pt; TEXT-DECORATION: underline">http://www.laserfocusworld.com/display_article/367029/12/none/none/News/FIBER-FABRICATION:-Single-mode-fiber-has-very-low-bending-los</SPAN><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"></SPAN></A></SPAN>&nbsp;<BR><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"><A href="http://www.optoiq.com/articles/display/367029/s-articles/s-laser-focus-world/s-volume-45/s-issue-8/s-world-news/s-fiber-fabrication-single-mode-fiber-has-very-low-bending-loss.html" target=_blank><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #800080; FONT-SIZE: 12pt; TEXT-DECORATION: underline"><BR>http://www.optoiq.com/articles/display/367029/s-articles/s-laser-focus-world/s-volume-45/s-issue-8/s-world-news/s-fiber-fabrication-single-mode-fiber-has-very-low-bending-loss.html</SPAN><SPAN style="TEXT-ALIGN: justify; LINE-HEIGHT: 24px; FONT-FAMILY: 휴먼명조,한컴돋움; LETTER-SPACING: 0px; COLOR: #000000; FONT-SIZE: 12pt"></SPAN></A></SPAN> </P></SPAN>

<P><SPAN style="FONT-FAMILY: 굴림체; FONT-SIZE: 11pt"></SPAN>&nbsp;</P>

<P><SPAN style="FONT-FAMILY: 굴림체; FONT-SIZE: 11pt"></SPAN></SPAN>&nbsp;</P>