Keywords: [TCSPC, lifetime, rhodamine B, photoluminescence] This experiment relied on a TCSPC card from Picoquant, a PICO model TimeHarp 260. The.
TCSPC System PicoQuant GmbH Request Info PicoQuant GmbH has released the TimeHarp 260, a time-correlated single photon counting (TCSPC) and multichannel scaling board with PCI Express interface based on a custom time-to-digital converter design to deliver ultrashort dead time and high throughput at high temporal resolutions.
PicoQuant uses a bespoke file format called PTU to store data from time-tag-time-resolved (TTTR) measurements. Current file format (.ptu) and is subsequent to the former .pt2 or .pt3 and can handle both T2 and T3 acquisition modes for a variety of TCSPC devices (MultiHarp, HydraHarp, TimeHarp, PicoHarp, etc.) Beam Shape and Fibre Coupling. All laser heads emit a collimated elliptical beam with typical dimensions of 1.5 × 3.5 mm. They can be optionally fitted with single mode, polarisation maintaining single mode or multi mode optical fibres through appropriate fibre couplers. Today recording of T3-mode and T2-mode files is possible with all recent PicoQuant TCSPC devices (TimeHarp 260, PicoHarp 300 and HydraHarp 400 and their included software, analysis is supported mainly by the SymPhoTime software package. Tools for reading PicoQuant file formats.
PicoQuant offers several modules for Time-Correlated Single Photon Counting (TCSPC), Multi-Channel Scaling (MCS), coincidence correlations, or event timing with temporal resolutions between picoseconds and milliseconds. Single channel as well as multichannel versions with either USB or PCIe interface can be provided. PicoQuant is known as a company leading in the field of pulsed diode lasers, time-resolved data acquisition, single photon counting and fluorescence instrumentation. Time-Resolved Fluorescence Wiki This wiki is a loose collection of documents that the Support team of PicoQuant found to be of general interest to our customers or people working with Time Resolved Fluorescence or TCSPC in general. It is not meant to be complete.
The compilation below is probably not complete. If you are the maintainer of a software that deals with TCSPC data please edit this page and add your software listing. Alternatively you can also use https://support.picoquant.com to contact PicoQuant support to submit your software project.
Tel: See Contacts Fax: +49-30-1208820-90 info@picoquant.com PicoQuant's wide range of products for photon counting includes several high-end modules for time-correlated single photon counting (TCSPC) and event timing, single photon sensitive detectors and specialized analysis software for the evaluation of (time-resolved) fluorescence measurements. kcps. Oldfashioned NIM based TCSPC electronics can handle a maximum of 50,000 to 500,000 cps. With modern integrated TCSPC designs count ra-tes over 10 Mcps can be achieved.
The compilation below is probably not complete. If you are the maintainer of a software that deals with TCSPC data please edit this page and add your software listing. Alternatively you can also use https://support.picoquant.com to contact PicoQuant support to submit your software project.
Bursts of It contains the complete optics and electronics for recording fluorescence decays by means of Time-Correlated Single Photon Counting (TCSPC) and/or Multi-Channel Scaling (MCS). The system is optimized for high temporal resolution and can be used with femtosecond or picosecond lasers, like the picosecond diode lasers from PicoQuant. all PicoQuant TCSPC units include two fundamentally different Time-Tagged Time-Resolved measurement (TTTR) modes. The core idea of these T2 and T3 modes is to introduce an additional timing information that represents the time difference since the start of the measurement on an absolute scale. Along with the possibility to measure on PicoQuant's wide range of products for photon counting includes several high-end modules for time-correlated single photon counting (TCSPC) and event timing, single photon sensitive detectors and specialized analysis software for the evaluation of (time-resolved) fluorescence measurements. PicoQuant has quite a few treats in store for attendees of this year’s virtual SPIE Photonics West (March 6–11, 2021).
Introduction. The MultiHarp 150 is a TCSPC system with USB 3.0 interface. The system requires a 686 class PC with suitable USB host controller, 4 GB of memory, two or more CPU cores and at least 2 GHz CPU clock.
Särskild officersutbildning flashback
ZERO BIAS - scores, article reviews, protocol conditions and more PicoQuant releases first TCSPC system with USB 3.0 09 Aug 2012 The new “HydraHarp 400” is now qualified for most advanced high throughput applications and facilitates life science work as well as quantum information processing. PicoQuant GmbH disclaims all warranties with regard to this software and associated documentation including all implied warranties of merchantability and fitness. In no case shall PicoQuant GmbH be liable for any direct, indirect or consequential damages or any material or immaterial damages whatsoever resulting from loss of data, time or profits arising from use or performance of this software.
Old-fashioned NIM based TCSPC electronics are able to handle a maximum of 50,000 to 500,000 cps. With modern integrated TCSPC de-signs, e.g. TimeHarp 260, count rates up to 40 Mcps can be achieved.
Sl kort barn
anna maria samuelsson
köpa konstglas
sollentuna international school
alan henning
habiliteringen bromma vuxna
massage fysiken
If your question concerns PicoQuant Software please fill in the below details. Software QuCoa SymPhoTime 64 n/a SymPhoTime 32 EasyTau FluoFit FluoPlot Software of TCSPC module Laser Driver Software
Single channel as well as multichannel versions with either USB or PCIe interface can be hundred kcps. Old-fashioned NIM based TCSPC electronics are able to handle a maximum of 50,000 to 500,000 cps. With modern integrated TCSPC de-signs, e.g.