Buying Timing Jitter Measurement Devices
Specialized instruments are used to measure the timing jitter of ultrashort laser pulses. These devices can provide power spectral densities of the pulse timing or simple r.m.s. values, depending on the measurement requirements.
Making Good Purchase Decisions
As the most professional photonics purchasing portal, RP Photonics helps you to not only to find all relevant suppliers (not limited to our advertisers), but also to make good purchasing decisions.
NEW: Structured Decision Process
Purchasing involves a lot of responsibility. We recommend that you apply best practice by using the following structured process: Go through the following expandable sections, complete the form and finally come to a purchase decision. You can then print that to a PDF for documenting the process.
Our article on best practices for purchasing and another one explaining this tool give you valuable insights.
Additional Resources
See also the white paper on Attosecond Timing Distribution from Menhir Photonics!
Suppliers for Timing Jitter Measurement Devices
2 suppliers for timing jitter measurement devices are listed in the RP Photonics Buyer's Guide, out of which 2 present their product descriptions. Both manufacturers and distributors can be registered.
Suppliers with Advertising Package
presenting their product descriptions
![]() Industriestrasse 42 8152 Glattbrugg Switzerland See us at LASER World of Photonics 2025 in Munich, June 24–27 (booth B2.521) and CLEO 2025 in Long Beach (CA), USA, May 4–9 (Kiosk 331)! | ![]() The MENHIR-1550 SERIES is the first industrial-grade, femtosecond laser at 1550 nm with GHz repetition-rate and ultra-low noise performances. Find more about the stability of Menhir Photonics’ products. Product-specific web page |
![]() Lasers for the Molecular Age Cycle GmbHLuruper Hauptstr. 1 22547 Hamburg Germany See us at LASER World of Photonics 2025 in Munich, June 24–27 (booth B2.122)! | ![]() Cycle offers the lowest noise timing detectors in the market based on its patented balanced optical cross-correlator (BOC) and balanced optical microwave phase detector (BOMPD) technologies. The BOC detects the relative timing jitter between two independent optical pulse trains with identical center wavelengths, whereas the BOMPD detects the timing jitter or phase noise between an optical pulse train and the zero-crossings of a microwave signal. Cycle’s BOCs and BOMPDs provide exceptionally high timing sensitivity, attosecond timing resolution, and AM-PM conversion suppression against environmental fluctuations. We offer BOCs operating on 800 nm, 1030 nm and 1550 nm wavelengths. We also offer two color BOCs (TCBOC) to measure the timing jitter of lasers at different center wavelengths. Our BOMPDs operate with a wide range of microwave frequencies (10 MHz – 10 GHz) and optical wavelengths (800 nm, 1030 nm and 1550 nm). Product-specific web page |
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