ROC Autocorrelator single-shot

Pulse duration measurement with unmet user-experience

ROC (Row Optical AutoCorrelator) is a compact and robust inline setup to measure single-shot autocorrelation traces. Specifically designed to offer the easiest user experience, they cannot be misaligned and no calibration or tweaking is needed. Also, they are easily transportable. And yes, they are rock-solid! Besides those advantages, the ROC autocorrelators provide excellent technical performances and highly accurate measurements. The ROC autocorrelators are available for different wavelength ranges and several pulse durations.

Alignment in seconds

Any repetition rate (single-shot to GHz)

Compact and robust

No calibration required

Spatially-resolved measurements

Download datasheet

Available documentation

2D / 3D drawings

Scientific papers

Logical rotation of non-separable states via uniformly self-assembled chiral superstructures

Zhang, Yi-Heng; Liu, Si-Jia; Chen, Peng; Zhu, Dong; Chen, Wen; Ge, Shi-Jun; Wang, Yu; Zhang, Zhi-Feng; Lu, Yan-Qing;
Nature Communications; 2024, Nature Publishing Group UK London
Nanjing University; China

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A 4-GHz actively driven ultra-low phase noise mode-locked fibre laser

Abdulkadir Yentur, Mehmet Ziya Keskin, and Ibrahim Ozdur
Electronics Letters; 2024, Wiley
TOBB University of Economics and Technology; Turkey

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Optimization of 1.03 μm femtosecond pulse laser tripling efficiency based on temporal walk-off compensation

Yang, Li; Ji, Lailin; Liu, Dong; Rao, Daxing; Zhang, Tianxiong; Shan, Chong; Shi, Haitao; Zhao, Xiaohui; Cui, Yong; Gao, Yanqi;
Optics Communications; 2023, Elsevier
USST; China

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Etude comparée de l'émission d'électrons de nanopointes de tungstène et de diamant: émission de champ et photoémission induite par laser femtoseconde

Torresin, Olivier;
; 2019, Université Paul Sabatier-Toulouse III
LCAR; France

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Product reviews

Among the autocorrelators we’ve used, MS‑ROC stands out. Setup was effortless and it delivered precise measurements right away. Femto Easy’s support is also top‑tier.

Yuki Ashida

SCREEN - Japan

Optical Engineer

ROC autocorrelator is quite accurate with much more data points and better fitting. And it is also quite easy to use.

Huang Zhou

Advanced Attosecond Laser Infrastructure, CAS - China

Professor

We use the ROC single-shot autocorrelator and the BeamPro laser beam profiler from Femto Easy. Those systems are robust and easy to use, hence perfect for a laboratory use with multiple users.

Laurent Gallais

Institut Fresnel - France

Professor

Menhir Photonics AG acquired a versatile Femto Easy multi-shot autocorrelator MS-ROC some time ago. This tool has been essential for accurate pulse duration measurements for multiple R&D projects. This version of the MS-ROC covers pulse durations from 50 fs to 40 ps. It is perfect for our high repetition rate, low pulse energy lasers.

Karolis Balskus

Menhir Photonics - Switzerland

Senior Laser Engineer

Thanks to the ease of use of the single-shot ROC Autocorrelator and the BeamPro Laser Beam Profiler, our approach of beam characterization changed dramatically. Given the speed with which reliable results can be obtained and the robustness of the devices, we now use our two Femto Easy instruments for the monitoring of several machines. Technicians can be trained on those devices within an hour thanks to the comprehensive, but non-daunting, manuals. The STAR software is excellent on its own right, and the API makes it simple to integrate Femto Easy devices in our interface.

Valentin Maffeis

HEF Groupe - France

Laser process R&D Engineer

The BeamPro and MS-ROC Autocorrelator are well equipped to characterize the fs laser for our research lab. The BeamPro provides good quality images and great tracking for beam stability. The MS-ROC has a clear design and is easy to align and measure the pulse width of the beam. The information is saved in convenient formats for further analysis. The STAR software has a clean and customizable interface, yet is packed with features. We appreciate how Femto Easy has implemented our suggestions for improving the software. We look forward to using this equipment for characterizing and monitoring our broad range output OPA and SHG beamlines as we build and use our pump-probe laser system for photoemission orbital cinematography.

Eric Fackelman

FZ Jülich - Germany

Researcher

The Radio and Optical Communications Lab at DCU acquired the MS-ROC autocorrelator to characterize optical frequency combs from 10 to 100 GHz for applications ranging from data center interconnects to THz generation. Its alignment-free operation achieved through a fibre coupled input to the autocorrelator significantly reduces the time to take our measurements compared to older autocorrelators.

Liam Barry

Dublin City University - Ireland

Professor

The femtosecond pulse duration measurement solution from Femto Easy (ROC autocorrelator) is easy to use, fast and reliable. The STAR software also establishes a new standard in terms of user friendliness and ease of use.

Pierre Deslandes

Helix Surgical - France

CTO, VP and Founder

Our new ROC autocorrelator has proven to be an excellent investment. I appreciate its user-friendly design, from the simple setup process to the intuitive software interface. Plus, its compact size is a definite bonus.

Patrik Grychtol

European XFEL - Germany

Researcher

The Femto Easy µ-ROC autocorrelator is a very compact and user-friendly device. It is easy to align and its compact size allows us to measure femtosecond pulses outside the laboratory where no optical table is available.

Senior Expert - Laser & Optics

Confidential Medical Company

Senior Expert

After working with conventional, bulky, and hard-to-operate autocorrelators, I was really impressed by how quick and easy it was to set up and use the µ-ROC. During maintenance and field service of complex ultrafast laser systems—especially on a tight schedule—such a compact and convenient autocorrelator is a must!

Algirdas Petrašiūnas

Tokyo Instruments - Japan

Service Engineer

The µ-ROC autocorrelator works like a charm! Very good experience, adjustment and full measurement of femtosecond pulses from Ekspla FemtoLux30 laser in just a few minutes – it was really femto easy …

Rokas Danilevičius

Ekspla - Lithuania

Chief Technical Officer

Spark Lasers develops and manufactures high-performance ultrafast lasers, renowned for their excellent pulse temporal quality. One of the keys to achieving this excellence lies in the metrology of our laser sources. To meet our demanding pulse quality goals, we extensively rely on Femto Easy technology. We utilize several systems (Fast FROGs, ROC autocorrelators) in both our R&D and Production departments. Their robustness, ease of use, and performance are instrumental to our daily operations.

Pascal Dupriez

Spark Lasers - France

CEO

Specifications:

ROC-Models

wdt_ID	wdt_created_by	wdt_created_at	wdt_last_edited_by	wdt_last_edited_at	-	FC	FS10	FS20	PS1	PS3	PS5	PS10
1	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Pulse duration min	5 fs	10 fs	20 fs	50 fs	70 fs	100 fs	200 fs
2	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Pulse duration max	150 fs	250 fs	500 fs	1 ps	3 ps	5 ps	10 ps
3	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Accessible spectral range (nm)1	480 - 2100	480 - 2100	480 - 2100	480 - 2100	480 - 2100	480 - 2100	800 - 2100
4	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Dimensions (mm)	55 x 56 x 233 (Format A)	55 x 56 x 265 (Format B)	55 x 56 x 233 (Format A)	55 x 56 x 195 (Format C)	55 x 56 x 195 (Format C)	55 x 56 x 195 (Format C)	55 x 56 x 195 (Format C)
5	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Input pulse repetition rate2	Single-shot to GHz	Single-shot to GHz	Single-shot to GHz	Single-shot to GHz	Single-shot to GHz	Single-shot to GHz	Single-shot to GHz
6	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Single-pulse measurement	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)	up to 125 kHz laser repetition rate (with Trigger and Enhanced Detection options, or 18 kHz without)
7	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Min input pulse energy3	Single-shot : 1 µJ at 30 fs 40 MHz : 500 pJ at 30 fs	Single-shot : 1 µJ at 30 fs 40 MHz : 500 pJ at 30 fs	Single-shot : 1 µJ at 30 fs 40 MHz : 500 pJ at 30 fs	Single-shot : 1 µJ at 300 fs 40 MHz : 300 pJ at 300 fs	Single-shot : 1 µJ at 300 fs 40 MHz : 300 pJ at 300 fs	Single-shot : 1 µJ at 300 fs 40 MHz : 300 pJ at 300 fs	Single-shot : 1 µJ at 300 fs 40 MHz : 300 pJ at 300 fs
8	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Input polarization	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)	linear horizontal (vertical if mounted on the side)
9	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	Detection	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB	CMOS 12 Bits - 3 Mpx - 72 dB
10	Goran	10/02/2026 06:35 PM	Goran	10/02/2026 06:35 PM	PC Interface	USB 3.1	USB 3.1	USB 3.1	USB 3.1	USB 3.1	USB 3.1	USB 3.1
					-	FC	FS10	FS20	PS1	PS3	PS5	PS10

¹ Effective spectral bandwidth to be defined within the accessible spectral range according to customer’s requirements

² The measurements are averaged over several pulses for laser with repetition rate higher than 62.5 kHz (with Enhanced Detection option). Custom versions available on request. For lower power and wider pulse duration ranges, Multi-Shot scanning versions are available (MS-ROC).

³ Those values give an order of magnitude for a 1030 nm laser. The exact sensitivity depends on many parameters (pulse duration, beam profile, wavelength…)

Optional features

Phase matching

Default ROC configuration works for a given central wavelength. Phase matching allows tuning the SHG crystal to measure different central wavelengths with the best SNR

Trigger

Synchronization of the ROC detection to an external signal for accurate laser single pulse extraction up to 36 kHz (125 kHz with the Enhanced detection option)

Integrated attenuation

Internal ND filter wheel can be added for built-in attenuation. Useful in the case of measuring low rep rate, high energy (mJ) laser sources

High dynamic range

Software mode to increase the dynamic of the ROC signal acquisition from 12 to 16 bits. Not compatible with pure single-shot measurement as 2 images are necessary to build one autocorrelation trace

Enhanced detection

Replacement of the default camera embedded in the ROC by a higher performance one to increase the specifications of the system (better temporal resolution, single-shot extraction up to 125 kHz with the Trigger option)

Software

All key data conveniently displayed: The Femto Easy software has been designed to be user friendly and intuitive. This is a modern software compatible with touchscreen that can run either under Linux or Windows. It allows distant control of the devices via PC, tablet or smartphone. We can also provide custom software developments upon request.

Learn more about software Contact Us to Schedule Live Demo

Videos

Single-Shot Autocorrelator in the Lab

Our engineers employ the latest technologies and frameworks to create autocorrelator solutions that combine a strong easy-to-use experience with high scientific performance.