Turn your research paper into a journal abstract or public explainer video
SciReel generates two types of videos from your PDF: a journal-ready video abstract for submission, or an engaging public explainer for social media and science outreach. MP4, SRT, and transcript — typically within 10 minutes.
100 free credits at sign-up. Journal Abstract or Public Explainer — each costs 100 credits.
sample output
Our paper, "Erasing Doppler dephasing error in Rydberg quantum gates," addresses a critical challenge in neutral-atom quantum computing. We investigate how residual thermal motion of atoms causes Doppler dephasing, a primary source of error that limits the fidelity of Rydberg quantum gates.
High-fidelity quantum gates are essential for building practical, fault-tolerant quantum computers using neutral atoms. Mitigating errors like Doppler dephasing is crucial. Reducing the sensitivity of these gates to atomic temperature lowers experimental hardware requirements, making quantum processors more robust and accessible.
Current solutions, such as traditional cooling and trapping techniques, are helpful but insufficient to fully eliminate Doppler effects. While two-photon counter-propagating laser setups can reduce dephasing, they cannot entirely remove it.
We propose an "error-erasing strategy." This method uses off-resonant dressing fields to couple the Rydberg state to an auxiliary state engineered to possess an opposite but enhanced sensitivity to the Doppler shift, effectively canceling the error.
Our simulations demonstrated a family of Rydberg CNOT gates exhibiting absolute immunity to Doppler dephasing. We achieved numerical gate fidelities of approximately 0.9906 with an excited auxiliary state and 0.9960 with a ground-state auxiliary state at 500 µK.
This work significantly relaxes atomic temperature constraints for high-fidelity Rydberg gates. Our protocols can enable reliable operation even at relatively higher experimental temperatures, simplifying hardware requirements and advancing practical quantum computing.
Our error-erasing strategy offers a promising path to high-fidelity Rydberg quantum gates robust against thermal motion. Find our paper in the New Journal of Physics, DOI: 10.1088/1367-2630/adcfbe.
How it works
From research paper to submission-ready files
01
Sign in, choose your style
Create a free account with Google. Drop your English, text-based research paper and choose between Journal Abstract or Public Explainer.
02
AI builds the draft package
Gemini reads your paper and generates the script — academic narration for Journal Abstract, or an engaging public-friendly story for Explainer. Concept illustrations for Explainer are generated by OpenAI GPT Image.
03
Receive the final files
SciReel renders the complete MP4 (with concept art and BGM for Explainer), SRT subtitles, and transcript for download.
Two modes for every use case
Built for researchers and science communicators
Journal Abstract mode
Meets common video abstract requirements from IOP, IEEE, MDPI, Elsevier, and more. Slideshow style with paper figures and academic narration. Always verify your target journal's guidelines.
Public Explainer mode
For social media and science communication. OpenAI GPT Image concept illustrations, engaging narrative script, and background music — all in ~90 seconds.
Complete output package
One generation delivers MP4 video, SRT subtitles, and a written transcript — everything you need in one place, for either video type.
Typically within minutes
Upload your PDF, choose your video style, and receive the complete package typically within about 10 minutes.
Independent AI Product
SciReel is an independent product that uses third-party AI models, including Google Gemini, OpenAI GPT Image, and MiniMax, to help generate draft video abstracts. SciReel is not affiliated with, endorsed by, or sponsored by Google, OpenAI, MiniMax, or other model providers.
SciReel only supports authorized academic research papers and does not support NSFW, sexually explicit, or non-academic uploads. See acceptable use terms for details.
Pricing
Start free, then buy credits or subscribe
Every account receives 100 credits once — enough for one complete video. A complete generation costs 100 credits, whether you choose Journal Abstract or Public Explainer. Paid credits stack on top of your existing balance.
Product Hunt launch offer: enter code PRODUCTHUNT by June 30, 2026 during a paid checkout to receive 100 bonus credits after payment.
Billing, cancellation, and refund terms are available in our Terms of Service.
Paid plans open secure Creem checkout directly from this page.
Starter
Free
$0
100 credits once
Try SciReel with a complete journal-ready video package.
- Generate one complete video package for 100 credits
- Issued once per account after Google sign-in
- Includes MP4 video, SRT subtitles, and transcript
One-time
One-Time Credit Pack
$19
100 credits
100 credits for one complete video — Journal Abstract or Public Explainer.
- Enough for one Journal Abstract or Public Explainer
- Credits expire in 30 days
- Stacks on top of your existing balance
Subscription
Pro Monthly
$49 / month
300 credits each cycle
For individual researchers who publish regularly.
- Receive 300 credits every billing cycle
- Each grant is valid for 90 days
- Best for individual researchers producing videos regularly
Subscription
Lab Monthly
$149 / month
1200 credits each cycle
For labs, research teams, and batch usage.
- Receive 1200 credits every billing cycle
- Each grant is valid for 180 days
- Designed for labs, shared workflows, and batch usage
Video abstract requirements by publisher
Compare IOP, IEEE, MDPI, Elsevier, and more in one place.
From research paper to video — your choice of style
Journal Abstract for submission, or Public Explainer for social media. Upload your PDF and receive the complete video package with MP4, SRT subtitles, and transcript.
Upload your paper