ログイン
ユーザ名:

パスワード:



パスワード紛失

新規登録
メインメニュー
オンライン状況
68 人のユーザが現在オンラインです。 (57 人のユーザが フォーラム を参照しています。)

登録ユーザ: 1
ゲスト: 67

sajciboyd もっと...
フォーラム最新投稿一覧

Photonic MEMS switches going commercial

このトピックの投稿一覧へ

なし Photonic MEMS switches going commercial

msg# 1
depth:
0
前の投稿 - 次の投稿 | 親投稿 - 子投稿.1 .2 .3 .4 .5 .6 | 投稿日時 2022-11-3 12:49
xysoom  長老   投稿数: 2737
Photonic MEMS switches going commercial


One of the technical challenges the current data revolution faces is finding an efficient way to route the data. This task is usually performed by electronic switches, while the data itself is transferred using light confined in optical waveguides. For this reason, conversion from an optical to an electronic signal and back-conversion are required, which costs energy and limits the amount of transferable information. These drawbacks are avoidable with a full optical switch operation. One of the most promising approaches is based on microelectromechanical systems (MEMS), thanks to decisive advantages such as low optical loss and energy consumption, monolithic integration, and high scalability. Indeed, the largest photonic switch ever demonstrated uses this approach.Get more news about small optical switch,you can vist our website!

Commercialization
Until now, those MEMS photonic switches have been fabricated using nonstandard and complex processes in laboratory environments, which has made their commercialization difficult. But University of California Berkeley researchers initiated a collaboration that gathered engineers from different universities worldwide to demonstrate that the difficulties could be overcome. They created a photonic MEMS switch using a commercially available complementary metal-oxide-semiconductor (CMOS) fabrication process without modification. The use of this well-known microfabrication platform represents a huge step toward industrialization because it is compatible with most current technologies, cost-effective, and suited for high-volume production.

Switch fabrication
In their research, recently published in SPIE's new Journal of Optical Microsystems, the photonic switch was fabricated on silicon-on-insulator (SOI) 200-mm wafers using regular photolithographic and dry-etching processes in a commercial foundry. The whole photonic integrated circuit is included in the silicon top layer, which has the advantage of limiting the number of fabrication steps: There are two different dry-etching processes, one lift-off to create metal interconnects, and the final release of the MEMS by oxide etching. The switch design includes 32 input ports and 32 output ports, representing a 32 x 32 matrix (full size is 5.9 mm x 5.9 mm) of the same replicated element. In each of the single elements, the light transfer from one channel to the other is produced by decreasing the distance between two waveguides to couple their modes, an operation achieved by an electrostatic comb drive also included in the silicon top layer.

"For the first time, large-scale and integrated MEMS photonic switches have been fabricated in a commercial foundry on 200-mm SOI wafers. In my opinion, this is a convincing demonstration that this technology is suited for commercialization and mass production. They could be incorporated in data communication systems in the near future," said Jeremy Béguelin, one of the Berkeley researchers.
投票数:0 平均点:0.00

投稿ツリー

  条件検索へ


検索
サイト情報
サイト管理者

三笠