Procurement Summary
Country : USA
Summary : Widely Tunable, Single-Frequency, Continuous Wave, Visible Laser System
Deadline : 17 Jun 2024
Other Information
Notice Type : Tender
TOT Ref.No.: 102087582
Document Ref. No. : AMD-SS24-52
Competition : ICB
Financier : Self Financed
Purchaser Ownership : Public
Tender Value : Refer Document
Purchaser's Detail
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Description
BACKGROUND
The Quantum Measurement Division in the Physical Measurement Laboratory develops novel spectroscopic measurement techniques to probe key physicochemical properties of advanced quantum materials (i.e., 2D…) that will enable future technologies to move past conventional digital computing. Determining the fundamental processes of quasiparticles and related charge migration and phase change phenomenon are key aspects of our work. Additionally, we study alternative-state variables or information carriers, such as spin, phase, valley, etc., which will provide the foundation for lower-power electronics, optical switching, non-volatile memory, neuromorphic computing, and other technologies that are not possible with present material systems. Visible wavelength measurement systems, both in the linear and non-linear regime, enable detection of scattering, absorption, emission, and magnetism in these materials.
To support our research activities and to measure the interaction of quasiparticles, including phonons, magnons and excitons, The Fundamental Electrical Metrology Group requires the purchase of a widely tunable, single-frequency, continuous wave, laser system capable of high power output (greater than 200 mW) of gap-free wavelengths in four regions of the spectrum; 450-525 nanometers (nm), 540-650 nm, 900-1050 nm and 1080-1300 nm. This complex laser system will be used for resonant Raman and photoluminescent spectroscopic studies of novel quantum nanomaterials at varying temperatures and magnetic/electric fields. The system must be compatible with the extensive existing spectroscopic infrastructure.
Wavelength tunability, stability and narrow bandwidth of this laser are crucial because Raman scattered photons are only different from the laser excitation by
0.13 nm. High power is required because the output must be sent through multiple optical systems to deliver the light to mapping stages and/or cryostats located meters away....
Active Contract Opportunity Notice ID AMD-SS24-52 Related Notice Department/Ind. Agency COMMERCE, DEPARTMENT OF Sub-tier NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY Office DEPT OF COMMERCE NIST
General Information
Contract Opportunity Type: Sources Sought (Original)
All Dates/Times are: (UTC-04:00) EASTERN STANDARD TIME, NEW YORK, USA
Original Published Date: Jun 03, 2024 06:35 am EDT
Original Response Date: Jun 17, 2024 11:00 am EDT
Inactive Policy: 15 days after response date
Original Inactive Date: Jul 02, 2024
Initiative: None
Classification
Original Set Aside:
Product Service Code: 6640 - LABORATORY EQUIPMENT AND SUPPLIES
NAICS Code: 334516 - Analytical Laboratory Instrument Manufacturing
Place of Performance: Gaithersburg, MD 20899 USA
Documents
Tender Notice