OSA Incubator on Quantitative Modeling of Frequency-comb Sources


OSA Incubator on Quantitative Modeling of Frequency-comb Sources


19-21 November 2014
OSA Headquarters • 2010 Massachusetts Ave. NW • Washington, DC, USA

HOSTED BY:

Thomas F. Carruthers, University of Maryland–Baltimore County, USA
Curtis Menyuk, University of Maryland–Baltimore County, USA
Nathan R. Newbury, National Institute of Standards and Technology, USA
Sergei Turitsyn, Aston University, United Kingdom
Stephano Wabnitz, University of Brescia, Italy
 

The purpose of this Incubator is to examine diverse sources of precision frequency combs and establish the basis for broadly applicable models of their operation, with the goal of understanding parameters that will enable optimized designs suited to real-world applications. It will also investigate the effects of inherent and environmental noise and explore new wavelength ranges and different morphologies suited to different metrological applications.
 

Background

Frequency combs are generated by carrier-envelope phase-stabilized mode-locked lasers, in which the optical carrier phase is locked to the repetition rate. When locked to a highly stable optical reference frequency, these optical sources produce a comb of optical pulses, with precisely known frequencies and repetition rates, spread over a bread spectral region. They have revolutionized the field of precision optical metrology and are finding increasingly broad applications. Recently optical microresonators have been found capable of generating precisely spaced frequency combs, and they represent another potential source for precision metrology.

Since frequency comb technology was first applied to the field of precision optical metrology there have been many advances: comb sources have evolved, new types of comb sources have been invented, and the range of applications has increased. As these sources move from being primarily large laboratory instruments focused strictly on optical metrology to becoming system components supporting a broader range of applications, the requirements on frequency combs become more stringent and varied. The remarkable frequency accuracy of individual comb lines is not the only important requirement, but the optical power output, spectral flatness, wavelength range, robustness, size, power requirements, and cost all become more important.

This incubator will bring together researchers, engineers, government agencies and business leaders to discuss developing more quantitative and computationally efficient models toward determining key comb-laser parameters, with the goal of understanding how to engineer optimized comb systems that can meet performance requirements in a compact, power-efficient, and cost-effective source.


Meeting Schedule (All times approximate and subject to change, check back for full agenda.)

The program, including breakfasts and lunches, will be held at OSA Headquarters, 2010 Massachusetts Ave, NW, Washington, DC 20036.

Day 1: 19 November 2014
  • Begins with dinner, location to be determined, at 18:00

Day 2: 20 November2014
  • Breakfast begins at 8:00
  • Program begins at 8:30, lunch is included onsite
  • Dinner, location to be determined, begins at 18:00

Day 3: 21 November 2014
  • Breakfast begins at 8:00
  • Program begins at 8:30, lunch is included onsite
  • Program adjourns at 14:00
 

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 osaincubator@osa.org.
 

Additional Information

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.