The Moscone Center
San Francisco, California, United States
1 - 6 February 2020
Conference OE202
MOEMS and Miniaturized Systems XIX
Important
Dates
show | hide
Abstract Due:
24 July 2019

Author Notification:
30 September 2019

Manuscript Due Date:
8 January 2020

Conference
Cosponsors
Conference
Committee
show | hide
Conference Chairs
Program Committee
Program Committee continued...
  • David G. Lishan, Plasma-Therm LLC (United States)
  • Veljko Milanovic, Mirrorcle Technologies, Inc. (United States)
  • Yves-Alain Peter, Ecole Polytechnique de Montréal (Canada)
  • Zhen Qiu, Michigan State Univ. (United States)
  • Niels Quack, Ecole Polytechnique Fédérale de Lausanne (Switzerland)
  • Anna Rissanen, VTT Technical Research Ctr. of Finland Ltd. (Finland)
  • Stefan Richter, Carl Zeiss AG (Germany)
  • Hamdi Torun, Northumbria Univ. (United Kingdom)
  • Frédéric Zamkotsian, Lab. d'Astrophysique de Marseille (France)
  • Guangya Zhou, National Univ. of Singapore (Singapore)

Call for
Papers
MOEMS (micro-opto-electro-mechanical systems) are highly miniaturized, highly functional MEMS-based optical systems. Typically fabricated using batch microfabrication technologies, MOEMS combine optical, electrical and mechanical functionality in complex yet robust standalone microsystems.

MOEMS are found in myriad applications, ranging from displays and human interface devices to photonic communications systems and medical instrumentation. Combining a broad range of materials, from silicon to polymers, with a wide spectrum of manufacturing technologies, from nano-lithography to large-area printing, MOEMS represent one of the most interdisciplinary fields in photonics.

“MOEMS and Miniaturized Systems” solicits contributions from all disciplines contributing to MOEMS, including new materials and fabrication techniques, novel devices and components, advanced system concepts and the latest applications.

MATERIALS
  • silicon and other semiconductors
  • polymers and liquids
  • metals, dielectrics and ceramics
  • glasses and glass-like materials.
FABRICATION
  • surface and bulk micromachining
  • hybrid assembly and integration techniques
  • micro- and nano-contact printing
  • roll-to-roll processes
  • CMOS and packaging integration
  • additive and subtractive micro-manufacturing.
COMPONENTS AND SYSTEMS
  • beam shaping, steering, and wavefront modulators
  • UV, IR and spectroscopic imagers
  • tunable lenses, lasers, filters and DOEs
  • optofluidic devices and systems
  • optical shutters, modulators and switches.
APPLICATIONS
  • biomedical, endoscopic and multi-modal imaging
  • confocal, OCT, Raman and other microscopy systems
  • telecommunications, space exploration, and autonomous robots, vehicles and drones
  • portable and wearable consumer products
  • sensing, medical diagnostics, and health monitoring
  • 2D, 3D and holographic displays and imaging
  • nanotechnology, photonic crystals and plasmonics
  • distributed sensing, environmental monitoring and quality control.

JOINT SESSION with OE202 and OE203
TOPIC: Spatial Light Modulator

Various technologies including MEMS, LCD, lasers, LED, and OLED are under development to build high-performance projection and flat panel display systems. They are needed to provide large display sizes or high light efficiency in comparison to integrated displays for mobile phones, digital cameras, biomedical instruments, and personal digital assistants with ever decreasing size. This special session will give a comprehensive overview about recent development activities and results of the various light modulating technologies from modulating devices to module/system integration for novel applications.

JOINT SESSION with OE202 and BiOS BO103: Endoscopic Microscopy
This special joint session is in conjunction with BiOS conference BO103: Endoscopic Microscopy. Papers are solicited that address the unique challenges to deliver high-fidelity microscopic imaging of tissue with a miniaturized instrument platform. Example topics include mechanisms for distal beam scanning, focus control and aberration correction using MOEMS devices, MEMS actuators or electrowetting optics; proximal scanning based on DMD or other SLM technologies; novel optical assembly and alignment techniques; highly corrected miniature optical systems.

BEST PAPER AWARDS
We are pleased to announce that a cash prize, sponsored by Mirrorcle Technologies, Inc., will be awarded to the best paper and best student paper in MOEMS and Miniaturized Systems. Qualifying papers will be evaluated by the awards committee. Manuscripts will be judged based on scientific merit, impact, and clarity. The winners will be announced during the conference and the presenting authors will be awarded a cash prize.
To be eligible for the Best Paper Award, you must:
  • be listed as an author on an accepted paper within this conference
  • have conducted the majority of the work to be presented
  • submit your manuscript online by 8 January 2020
  • present your paper as scheduled.
To be eligible for the Best Student Paper Award, you must:
  • be a student without a doctoral degree (undergraduate, graduate, or PhD student)
  • submit your abstract online, and select “Yes” when asked if you are a full-time student, and select yourself as the speaker
  • be the presenting author on an accepted paper within this conference
  • have conducted the majority of the work to be presented
  • submit your manuscript online by 8 January 2020
  • present your paper as scheduled.
Back to Top