Integrated Photonics in the Mid-IR Incubator
9-11 May 2018
- Garo Khanarian, Consultant
- Robert Norwood, University of Arizona
- Brandon Shaw, US Naval Research Labortory
The Integrated Photonics in the Mid-IR Incubator, will explore the optical, electrical, and mechanical processes that must be integrated onto a photonic chip to develop a chip based architecture that will enable new applications.
Applications which would have a large impact in a field of study will be discussed and formulated and the chip based architecture will be developed through in depth roundtable discussions. The processes to realize the applications will be developed and the technologies to enable each process will be discussed. For example, spectroscopic chemical sensing on a chip may require some means of generating light in the mid-IR, whether by frequency combs or quantum cascade lasers, some means to allow the analyte to the interact with the light within the detection path, whether by microfluidics or directing the light beam to the analyte, some means of spectrally resolving the signal, some means of detecting the signal as well as processing of the spectral data to determine the analyte.
Another aspect that will be explored is integrated chips with either in-plane and out-of-plane beam steering, that can, for example, transmit laser signals into the atmosphere and detect return signal (LIDAR). Each of these processes may be accomplished by several different technologies and the pros and cons of each technology will be discussed. The potential impact of the chip based architecture vs. traditional means to accomplish the same objective will be discussed.
Scope and Topics
Through invited talks, panels, moderated discussion periods and informal networking the questions this incubator seeks to answer include:
What are practical applications for integrated photonic chips in the mid-wave? Some representative examples include the following:
Spectrometer on a chip
Sensor arrays, etc.
For each application, what is the chip layout and how hard is it to implement (what are the critical components)?
Beam routing technologies (waveguides, free-space beam steering, etc.)
Ancillary components such as microfluidic analyte delivery, gas collection, etc.
What componentry doesn’t exist, or has to have its performance improved?
Critical barriers to producing a prototype
What is the expected performance and when might it be realized
Meeting Schedule (All times approximate, check back for agenda)
The program, including breakfasts and lunches, will be held at OSA Headquarters, 2010 Massachusetts Ave, NW, Washington, DC 20036. Diners, which are also included in the registration, will be held at local restaurants.
Breakfast begins at 8:00 at OSA headquarters
Program begins at 8:30, lunch is included onsite
Dinner, location to be determined, begins at 18:00
Are you interested in attending?
A limited number of spots have been set aside at this invitation only meeting for interested individuals to apply for. Please send a brief letter of interest along with a CV to the hosts at email@example.com.
This page will provide you with information on receiving a letter of invitation if required for your visa as well as additional logistical and area information.