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- Offer Profile
- The PicoQuant group was founded in 1996 to develop robust, compact, and easy to use time-resolved instrumentation and systems.
Today, PicoQuant is known as a company leading in the field of pulsed diode lasers, time-resolved data acquisition, single photon counting, and fluorescence instrumentation. In 2002, we developed the first commercial ultrasensitive fluorescence microscope that permits measurements on the single molecule level. Our instruments are used all over the world. They help to prepare papers in high-ranking journals as well as carrying out routine quality control and production processes of global industrial players.
Product Portfolio
脉冲d Lasers and LEDs
- PicoQuant's compact and reliable turn-key diode laser solutions work in picosecond pulsed, modulated, or fast-switched (nsec to µsec) operation mode. The laser systems typically consist of a common driver unit and exchangeable heads. Specialized lasers are also available as stand-alone units.
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Picosecond Pulsed Drivers
- The picosecond pulsed diode laser drivers are designed as universal units that can control the dedicated laser or LED heads offered by PicoQuant. All drivers permit to control repetition rate and pulse energy of the attached heads. The drivers are available as single channel or multichannel units with manual or computer control. Their high quality and reliability are expressed by a unique 5-year limited warranty.
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Taiko PDL M1
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- High-End Picosecond Pulsed Diode Lase Driver
- Extended range of repetition rates from 1 Hz to 100 MHz
- Enhanced power capability
- Calibrated, linearized optical power output with fine control
- Easy control via USB or local interface
- User-defined burst patterns, pulsed, and CW operation
- Fine wavelength adjument
- Very low jitter
- External trigger input
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PDL 828
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- Multichannel Picosecond Diode Laser Driver
- Modular system, drives up to 8 lasers or LED heads
- Adjustable repetition rates from single shot to 80 MHz or CW operation
- Computer controlled through USB
- Various operation modes: bursts, simultaneous, delayed, sequential, burst sequence
- 脉冲energy control of attached laser or LED heads
- Synchronization output, two gating options (fast/slow gate)
- Suited for LDH Series, LDH-FA Series and PLS Series
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PDL 800-D
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- Picosecond Pulsed Diode Laser Driver
- 脉冲d and CW operation
- Easily selectable repetition rates from 31.25 kHz to 80 MHz
- Externally triggerable from single shot up to 80 MHz / sync output
- Laser pulse energy adjustable via driver unit
- Laser heads from 266 to 1990 nm, LED heads from 255 to 600 nm
- External trigger / sync output
Picosecond Pulsed Sources
- The picosecond pulsed sources are either laser diode based or LED based devices that can be operated at variable, user-adjustable repetition rates up to 100 MHz. They cover discrete wavelengths from 255 nm to 1990 nm. Power levels vary between µW and hundreds of mW for the most powerful, fibre amplified versions. Pulse widths can be as short as 40 ps. The following table gives a rough overview about the key parameters. It should be noted that all mentioned parameters do strongly depend on the individual wavelength.
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LDH-I Series
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- Smart Laser Diode Heads for Taiko PDL M1
- Wavelengths between 375 nm and 1550 nm
- 脉冲widths as short as 20 ps (FWHM)
- Repetition rate from single shot to 100 MHz
- Adjustable (average) power up to 60 mW
- 脉冲d, Bursts, and CW operation
- Power calibrated, operating hours counter, TE cooled
- Collimated beam, optional fiber coupling
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LDH Series
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- Picosecond Laser Diode Heads for PDL 800-D / PDL 828
- Wavelengths between 375 and 1990 nm
- 脉冲widths as short as 20 ps (FWHM)
- Repetition rate from single shot to 80 MHz
- Adjustable (average) power up to 50 mW
- Peak power up to 1 W
- 脉冲d, burst, and CW operation
- TE cooled, collimated beam, optional fiber coupling
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LDH-FA Series
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- Amplified Picosecond Pulsed Laser Diode Heads
- NEW: High power green laser with CW emission mode
- Available wavelengths: 266, 355, 515, 531, 560, 766, 1064, and 1532 nm
- 脉冲width down to 70 ps (FWHM)
- Average output power between 1 mW and 450 mW (depending on wavelength)
- Repetition rates up to 80 MHz
- Collimated beam or PM fiber output with FC/APC fiber connector
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PLS Series
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- Sub-nanosecond Pulsed LEDs
- Wavelengths from 255 to 600 nm
- Peak power up to 2.5 mW
- 脉冲widths as short as 600 ps (FWHM)
- Repetition rate from single shot up to 40 MHz
High-power and UV Lasers
- The VisUV/VisIR lasers are a versatile and flexible laser platform based on a Master Oscillator Fiber Amplifier (MOFA) concept with optional frequency conversion. The VisUV platform offers up to 3 parallel laser beams at wavelengths between 266 nm and 590 nm with output powers of up to 100 mW. The VisIR platform is ideally suited for high-power applications in the infrared at 1064 or 1530 nm or as a depletion laser for STED microscopy at 766 nm.The following table gives a rough overview about the key parameters. It should be noted that all mentioned parameters do strongly depend on the individual wavelength.
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VisUV
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- Picosecond Lasers in UV, Green, Yellow, and Orange
- Enhanced power values at 280 and 295 nm
- UV wavelengths 266, 280, 295, 355 nm
- Vis wavelengths 532, 560, 590 nm
- 脉冲width <85 ps (FWHM)
- Repetition rate from single shot up to 80 MHz, external or internal triggering
- Collimated output, optional fiber coupling
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VisIR
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- High Power Picosecond Laser
- Center emission wavelength 766, 1064 and 1532 nm
- 脉冲width typically 70 ps (FWHM) or 0.5 ns (FWHM)
- Average output power between > 400 mW and > 1.5 W (depending on wavelength)
- Repetition rates from single shot up to 80 MHz, external or internal triggering
- Collimated output
OEM Lasers
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Custom Tailored Solutions
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- Custom Tailored Solutions
- Features of the stand-alone drivers (PDL Series, FSL 500)
- In custom design housing with small footprint
- Adaptable to customers' needs, optics, and applications
Laser Combiners
- All lasers from PicoQuant can be coupled into optical fibers, either individually or as a combination of up to five laser lines into a single fiber. Several types of delivery fibers are available, including single mode, polarization maintaining single mode and multimode ones. These fibers can be further equipped with various output connectors, collimation or even microfocus optics to best suit your application. In combination with the PDL 828 "Sepia II" driver, the Laser Combining Unit (LCU) offers an unmatched flexibility for multicolor excitation patterns.
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Laser Combining Unit (LCU)
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- Flexible Unit for up to 5 Laser Lines
- Wavelength 375 nm to 900 nm
- Up to 5 laser lines
- Polarisation maintaining singlemode output fiber
- Flexible configurations
- Supports laser heads of the LDH Series and LDH-FA Series
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Fiber Coupling
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- A Coupling Solution for Any Laser
- Available for all collimated free beam laser sources from PicoQuant, except below 350 nm
- Various fiber types: multi-mode, single mode and polarization maintaining single mode
- Various input and output connectors: FC/APC, FC/PC, SMA, and others on request
- Typ. 40 to 60 % coupling efficiency in (polarization maintaining) single mode fibers
- Typ. 80 % coupling efficiency in multi-mode fibers
Nanosecond Pulse Shaping
- Dedicated optical and electrical pulse generators capable of delivering nanosecond pulses for laser wavelengths ranging from 375 to 1550 nm as well as with programmable pulse shapes.
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FSL 500
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- Fast Switched Diode Laser
- 脉冲width adjustable between 3 and 100 ns
- Repetition rate from single shot to 12 MHz
- User-defined signal patterns via external triggering
- Wavelengths from 375 to 1550 nm, power levels up to 40mW
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PPL 400
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- Diode Laser with Programmable Pulse Shape
- Center wavelength: 1030 nm, 1064 nm, 1950 nm, others on request
- 脉冲width between 1 and 330 ns with programmable pulse shape
- Repetition rate up to 1 MHz
- External trigger input
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PPG 512
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- Programmable Pulse Generator
- 5 GS/s, 200 ps time bins
- Record length 512 Bytes / 102.4 ns
- 脉冲width up to 4 ns
- High output amplitude up to -12 V
Photon Counting and Timing
- 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 and quantum correlations.
TCSPC and Time Tagging Electronics
- 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. All units work in the histogramming mode and offer two time tagging modes. Their high quality and reliability are expressed by a unique 5-year limited warranty.
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HydraHarp 400
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- Multichannel Picosecond Diode Laser Driver
- Up to 8 independent input channels and common sync channel (up to 150 MHz)
- 65536 histogram bins per channel, minimum width 1 ps
- Time tagging with sustained count rates up to 40 Mcps
- Histogrammer measurement ranges from 65 ns to 2.19 s
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MultiHarp 150
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- High-Throughput Multichannel Event Timer & TCSPC Unit
- 4, 8, or 16 independent input channels
- Common sync channel (up to 1.2 GHz sync rate)
- High sustained data throughput (80 Mcps in time tagging mode, 180 Mcps in histogramming mode)
- Record-breaking dead time (650 ps) per channel
- No dead time across channels
- White Rabbit ready TCSPC device
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PicoHarp 300
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- Stand-alone TCSPC Module with USB Interface
- Two identical synchronized but independent input channels
- 65536 histogram time bins, minimum width 4 ps
- Optional: Time tagging with sustained count rates up to 5 Mcps
- Histogrammer measurement range from 260 ns to 33 µs (depending on resolution)
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TimeHarp 260
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- TCSPC and MCS board with PCIe interface
- One or two independent input channels and common synch channel (up to 100 MHz)
- Two models with either 25 ps (PICO model) or 250 ps (NANO model) base resolution
- "Long range mode" option for PICO model with 2.5 ns base resolution
- Ultra short dead time (< 25 ns for PICO model, < 2 ns for NANO model)
Photon Counting Detectors
- The available photon counting detectors include photomultiplier tubes (PMT), Hybrid photomultiplier detectors (HPD) and Single Photon Avalanche Diodes (SPAD) that cover different spectral ranges between the UV and the NIR. All detectors feature timing resolutions in the picosecond range, depending on model and operating conditions. The following table gives a rough overview about the key parameters:
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PMA Hybrid Series
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- Hybrid Photomultiplier Detector Assembly
- Timing resolution down to < 50 ps (FWHM, cathode dependent)
- Detection efficiency up to 45 % (cathode dependent)
- Active area up to 6 mm
- Negligible afterpulsing
- NEW: analog output provides positive voltage proportional to count rate
- NEW: -07 and -42 cathodes with spectral ranges between 220 and 870 nm, detection efficiency up to 25 %
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PMA Series
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- Photomultiplier Detector Assembly
- Timing resolution < 180 ps (FWHM)
- Quantum efficiencies up to 40% (cathode dependent)
- Spectral ranges from 185 nm to 920 nm available
- Optional thermoelectric cooler
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PDM Series
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- Single Photon Avalanche Diodes
- Timing resolution down to < 50 ps (FWHM)
- Detection efficiency up to 49 %
- Different active areas: 20, 50, and 100 µm
- Ultra stable at high count rates
Software
- PicoQuant offers specialized software for the analysis of quantum correlations and fluorescence measurements. This includes multiexponential fluorescence decay fitting as well as special methods like FLIM and FLIM-FRET, FCS, FCCS, FLCS, anisotropy, antibunching, coincidences and the analysis of fluorescence time traces.
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QuCoa
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- Quantum Correlation Analysis Software
- Antibunching (g(2)) measurements including fitting of several models
- Coincidence counting / event filtering using AND, OR, NOT operators
- Preview of antibunching curve and correlation data during measurement
- Remote control via TCP/IP Interface
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SymPhoTime 64
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- Fluorescence Lifetime Imaging and Correlation Software
- Point, 2D, and 3D TTTR data acquisition with online preview of FLIM, FCS, time-traces, or
- TCSPC histograms
- FLIM, fast FLIM, FLIM-FRET
- FCS, FCCS, FLCS, PIE-FCS, coincidence correlation, total correlation
- FRET, PIE-FRET, fluorescence time traces, anisotropy
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EasyTau 2
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- Fluorescence Spectrometer Control and Data Analysis Software
- Data fitting / analysis software for set-ups based on PicoQuant TCSPC electronics
- Combined software solution for data fitting / analysis and controlling the FluoTime 250 and
- 300 spectrometer
- Wizard-guided measurements or full control with customized mode
- Steady-state and global decay analysis with robust error analysis
- Powerful scripting language for automation (local and remote)
Accessories
- Accessories for photon counting experiments include a router for the PicoHarp 300 TCSPC module, a specialized dual channel power supply for SPADs, a signal delayer with picosecond resolution and a trigger diode. Signal conditioners (inverter, attenuator, pre-amplifier or splitter) as well as signal cables can also be provided.
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PHR 800
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- Universal 4-channel detector router for the PicoHarp 300
- Allows simultaneous measurement of 4 detector signals
- Adjustable input polarity and trigger threshold
- Predefined settings for TTL or NIM signals provided by SPAD detectors
- Optional Constant Fraction Discriminators for PMTs, Hybrid-PMTs and MCP-PMTs
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DSN 102
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- Dual SPAD Power Supply
- Two-channel power supply for Single Photon
- Avalanche Diodes (SPAD)
- Safety shut-down to prevent SPAD degradation
- Integrated counter
Acoustic monitoring and warning
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PSD-MOD
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- Picosecond Delayer
- 50 ns maximum delay range, 10 ps step
- TTL and NIM output pulses
- Up to 390 MHz bandwidth (NIM output)
- Programmable output width
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TDA 200
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- Trigger Diode Assembly
- Compact design
- Fall time typ. 250 ps
- 脉冲width as short as 500 ps (FWHM)
- Spectral range from 350 to 1100 nm
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PAM 102
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- Pre-Amplifier Module
- Fast rise time / wide bandwidth
- Low jitter
Ideal for low output fast photon detectors like
- MCP and PMT
- 3 dB bandwidth up to 1.8 GHz
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Adapters, Splitters, Cables
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- Various accessories for photon counting setups
- Signal attenuators and inverters
- TTL to NIM converter
- Power splitter
- Signal cables
Adapters, Splitters, Cables
- Various accessories for photon counting setups
- Signal attenuators (20dB, 10dB, 5dB, 3dB)
- TTL to NIM converter (e.g. for TT output of SPADs)
- Signal inverter
- Power splitter
- Signal cables
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ATM Series SMA Inline Attenuators
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- The ATM series attenuators are used to attenuate signals from e.g. Single Photon Avalanche Diode (SPAD) modules. The higher signal amplitude of the TTL pulses from these detectors exceeds the input voltage range for e.g. the PicoQuant TCSPC units. Available from PicoQuant are attenuators with 3 dB, 5 dB, 10 dB and 20 dB.
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SIA 400 - Inverter and Attenuator Module
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- The SIA 400 module is a passive module designed to invert and attenuate (20 dB) TTL pulses produced e.g. by Single Photon Avalanche Diode (SPAD) modules to negative pulses compatible with PicoQuant TCSPC units. The SIA 400 has BNC connectors at both ends.
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SI100 - Inverter Module
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- The SI 100 module is a passive module designed to invert signals from e.g. a detector or a synchronization signal from a laser source in order to make them compatible with PicoQuant TCSPC units.
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PSM 50/51 - Power Splitter Module
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- The PSM 50/51 power splitter (reflection free T-pad) allows a 50 Ohms RF source to feed two 50 Ohms loads simultaneously. This task cannot be performed by an ordinary T-pad without severe reflections and consequent signal distortion. This is particularly important in timing sensitive applications such as Time-Correlated Single Photon Counting (TCSPC). Max. power dissipation 0.2 W. The power splitter are available with either BNC (PSM 50) or SMA (PSM 51) connectors.
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Cables
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- PicoQuant可以提供一系列的特殊信号cables with SMA or BNC connectors as well as specialized cables with Lemo connectors. For signal connections we recommend RG 223 cable. This cable type has a double braided silver plated screen which provides optimum shielding in timing sensitive applications such as Time-Correlated Single Photon Counting (TCSPC)
Quantum Random Number Generator
- Randomness is an invaluable resource in many areas of science and technology ranging from Monte Carlo simulations to secure encryption methods. While computer generated random numbers can be used for some applications, they remain fundamentally non-random in the sense that anything generated by an algorithm is at least in principle predictable. However, quantum physics provides randomness which is unpredictable based on the fundamental laws of nature
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PQRNG 150
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- Quantum Random Number Generator
- Quantum Random Number Generator based on photon arrival times
- 比特率:150 mbit / s
- Interface: USB 2.0
- Software: driver and user library (DLL) for Windows XP, Vista and 7
- DLL demos and simple GUI for data retrieval to files
Fluorescence Spectrometers
- PicoQuant offers several fluorescence spectrometers that range from compact table-top spectrometers for teaching or daily routine work to modular high-end spectrometers with exact timing down to a few picoseconds. Samples can be liquids in standard cuvettes, solid samples or even semiconductor wafers for in-line quality control.
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FluoTime 300
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- High Performance Fluorescence Lifetime and Steady State Spectrometer
- Fully automated system
- Time-resolved and steady-state operation
- Easy to use software with application wizards and scripting option
- Modular and flexible design
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FluoTime 250
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- Compact and Modular Fluorescence Lifetime Spectrometer
- Fully automated compact and modular system
- Filter based emission selection, optional monochromator
- Supports both TCSPC and Multi-Channel Scaling data acquisition
- Step by step application wizards and scripting option
- Covers lifetime ranges from picoseconds to milliseconds
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FluoTime 200
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- Modular Fluorescence Lifetime Spectrometer
- Modular and flexible design
- Picosecond temporal resolution
- Time-Correlated Single Photon Counting (TCSPC) and Multi-Channel Scaling (MCS)
- Low temporal dispersion monochromator
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FluoTime 100
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- Compact Fluorescence Lifetime Spectrometer
- Plug and measure, compact design
- Based on Time-Correlated Single Photon
- Counting (TCSPC)
- Easy to use picosecond laser or sub-nanosecond LED excitation
- Filters for high optical throughput and highest sensitivity
Fluorescence Spectrometers
- PicoQuant offers several fluorescence spectrometers that range from compact table-top spectrometers for teaching or daily routine work to modular high-end spectrometers with exact timing down to a few picoseconds. Samples can be liquids in standard cuvettes, solid samples or even semiconductor wafers for in-line quality control.
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MicroTime 200
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- 时间分辨的智慧共焦荧光显微镜h Unique Single Molecule Sensitivity
- Complete system with laser combining unit, inverted microscope body, and multichannel detection unit
- Single molecule sensitivity for excitation between 266 and 900 nm
- Multiple detector options for up to 6 truly parallel detection channels
- Multiple applications ranging from imaging to single molecule studies
- NEW: FLIMbee galvo scanner add-on with outstanding flexibility in scanning speed and excellent spatial precision
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MicroTime 200 STED
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- 时间分辨的智慧共焦荧光显微镜h Super-resolution Capability
- Complete confocal STED system based on inverted microscope body
- Optical resolution below 50 nm
- Excitation at 640 nm and optionally with additional lasers at 595 nm and 660 nm
- Supports gated STED (gSTED) and gSTED-FCS
- NEW: FLIMbee galvo scanner add-on with outstanding flexibility in scanning speed and excellent spatial precision
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MicroTime 100
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- Upright Time-resolved Fluorescence Microscope
- Complete system with laser combining unit, upright microscope body and detection unit
- 脉冲d diode lasers with wavelengths from 375 nm to 810 nm
- Multiple detector options for up to four detection channels
- XY-scanning piezo stage for 2D-lifetime imaging
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LSM Upgrade Kit
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- Compact FLIM and FCS Upgrade Kit for Laser Scanning Microscopes
- Compact, easy-to-use and maintenance-free kit, customized to all major LSMs in various configurations for unlimited flexibility
- Highest sensitivity with up to 4 detection channels
- Fluorescence lifetimes from < 100 ps up to µs
- NEW: rapidFLIM, FLIM, FRET, and FCS in one turn-key system
- NEW: PicoQuant welcomes Scientifica to the LSM Upgrade Kit Family
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SymPhoTime 64
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- Fluorescence Lifetime Imaging and Correlation Software
- Point, 2D, and 3D TTTR data acquisition with online preview of FLIM, FCS, time-traces, or
- TCSPC histograms
- FLIM, fast FLIM, FLIM-FRET
- FCS, FCCS, FLCS, PIE-FCS, coincidence correlation, total correlation
- FRET, PIE-FRET, fluorescence time traces, anisotropy
Applications
- PicoQuant offers several fluorescence spectrometers that range from compact table-top spectrometers for teaching or daily routine work to modular high-end spectrometers with exact timing down to a few picoseconds. Samples can be liquids in standard cuvettes, solid samples or even semiconductor wafers for in-line quality control.
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Life Science
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- Life science refers to the fields of science that involve the scientific study of processes and structures of living organisms. While biology remains the centerpiece of the life sciences, related fields such as biochemistry, biophysics, or medicine are also included. Life science applications aim at understanding organisms and their place in the ecosystem.
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Materials Science
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- 材料科学是一个跨学科领域that investigates the relationship between the structure of materials at atomic or molecular scales and their macroscopic properties. Materials science aims at creating or transforming existing materials as well as enhancing materials to give better performance for particular applications.
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Title
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- Metrology is the science of measurements. It refers to the process of measuring one or several specific parameters for a defined purpose. Metrology applications in this context are not directly related to specific research in life sciences or materials science, but are either generally applicable or serve a very specific measurement task.
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Quantum Optics
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- 量子光学是一个交易的领域的研究ith the application of quantum mechanics to phenomena involving light and its interactions with matter. One of the main goals is to understand the quantum nature of information and to learn how to formulate, manipulate, and process it using physical systems that operate on quantum mechanical principles.