This website uses cookies to deliver some of our products and services as well as for analytics and to provide you a more personalized experience. Click here to learn more. By continuing to use this site, you agree to our use of cookies. We've also updated our Privacy Notice. Click here to see what's new. We develop the FDTD method based on the trapezoidal recursive convolution technique to analyze metallic periodic structures at oblique incidence. The results from the FDTD method agree well with the analytical results. You do not have subscription access to this journal. Citation lists with outbound citation links are available to subscribers only. You may subscribe either as an OSA member, or as an authorized user of your institution.
This website uses cookies to deliver some of our products and services as well as for analytics and to provide you a more personalized experience. Click here to learn more. By continuing to use this site, you agree to our use of cookies. We've also updated our Privacy Notice. Click here to see what's new. We develop a three-dimensional implicit FDTD method based on the locally one-dimensional scheme to analyze periodic structures. You do not have subscription access to this journal. Citation lists with outbound citation links are available to subscribers only. You may subscribe either as an OSA member, or as an authorized user of your institution. Login or Create Account.
Sheet thickness detector and image forming apparatus including same. Patent number: Abstract: A sheet thickness detector incorporated in an image forming apparatus includes a sheet conveying member to rotate and convey a sheet in a sheet conveyance direction, a driven sheet conveying member to contact the sheet conveying member and form at least one first transfer nip therebetween in a lateral direction and to displace by an amount equivalent to a thickness of the sheet passing through the first transfer nip and rotated with the sheet conveying member in the sheet conveyance direction, a displacement member to contact the sheet conveying member and form a second transfer nip smaller than the first transfer nip in the lateral direction and to displace by an amount equivalent to the thickness of the sheet passing through the second transfer nip and supported at a support member, and a displacement amount detector to detect an amount of displacement of the displacement member. Type: Grant. Filed: December 31, Date of Patent: November 22, Assignee: Ricoh Company, Ltd. Publication number: Type: Application. Publication date: April 23,
This website uses cookies to deliver some of our products and services as well as for analytics and to provide you a more personalized experience. Click here to learn more. By continuing to use this site, you agree to our use of cookies. We've also updated our Privacy Notice. Click here to see what's new. We develop a three-dimensional implicit FDTD method based on the locally one-dimensional scheme to analyze periodic structures. You do not have subscription access to this journal. Citation lists with outbound citation links are available to subscribers only.
You may subscribe either as an OSA member, or as an authorized user of your institution. Login or Create Account. Allow All Cookies. Learn more about our response to COVID including information for authors, reviewers, readers , and librarians. Wakabayashi, J. Yamauchi, and H. Not Accessible Your account may give you access. Abstract We develop a three-dimensional implicit FDTD method based on the locally one-dimensional scheme to analyze periodic structures.
References You do not have subscription access to this journal. Integrated Photonics Research, Silicon and Nanophotonics Please login to set citation alerts. Equations displayed with MathJax. Right click equation to reveal menu options. Select as filters. All Rights Reserved. Privacy Terms of Use. Password Forgot your password? Remember me on this computer. Login Cancel. OSA Privacy Policy. Need help?