time-release-cryptography 
Papers (30)
| # | Title | |
| 1. | Verifiable Delay Functions Dan Boneh, Joseph Bonneau, Benedikt Bünz, Ben Fisch. 2018. | |
| 2. | Efficient verifiable delay functions Wesolowski, Benjamin. 2019. | |
| 3. | Simple verifiable delay functions Pietrzak, Krzysztof Z. 2019. | |
| 4. | A Survey of Two Verifiable Delay Functions. Boneh, Dan and B\"unz, Benedikt and Fisch, Ben. 2018. | |
| 5. | Verifiable Delay Functions from Supersingular Isogenies and Pairings Luca De Feo and Simon Masson and Christophe Petit and Antonio Sanso. 2019. | |
| 6. | Continuous verifiable delay functions Ephraim, Naomi and Freitag, Cody and Komargodski, Ilan and Pass, Rafael. 2019. | |
| 7. | Homomorphic time-lock puzzles and applications Malavolta, Giulio and Thyagarajan, Sri Aravinda Krishnan. 2019. | |
| 8. | Proofs-of-delay and randomness beacons in ethereum B\"unz, Benedikt and Goldfeder, Steven and Bonneau, Joseph. 2017. | |
| 9. | On the Security of Time-Locked Puzzles and Timed Commitments Jonathan Katz and Julian Loss and Jiayu Xu. 2020. | |
| 10. | Delay Encryption Jeffrey Burdges and Luca De Feo. 2020. | |
| 11. | Tight Verifiable Delay Functions D\"ottling, Nico and Garg, Sanjam and Malavolta, Giulio and Nalini, Prashant. 2019. | |
| 12. | Randrunner: Distributed randomness from trapdoor vdfs with strong uniqueness Schindler, Philipp and Judmayer, Aljosha and Hittmeir, Markus and Stifter, Nicholas and Weippl, Edgar. 2021. | |
| 13. | Diogenes: Lightweight Scalable RSA Modulus Generation with a Dishonest Majority Megan Chen and Carmit Hazay and Yuval Ishai and Yuriy Kashnikov and Daniele Micciancio and Tarik Riviere and abhi shelat and Muthu Venkitasubramaniam and Ruihan Wang. 2020. | |
| 14. | Trustless Groups of Unknown Order with Hyperelliptic Curves Samuel Dobson and Steven D. Galbraith. 2020. | |
| 15. | Generic-Group Delay Functions Require Hidden-Order Groups Lior Rotem and Gil Segev and Ido Shahaf. 2020. | |
| 16. | Generically Speeding-Up Repeated Squaring is Equivalent to Factoring: Sharp Thresholds for All Generic-Ring Delay Functions Lior Rotem and Gil Segev. 2020. | |
| 17. | Multi-Party Timed Commitments Yael Doweck and Ittay Eyal. 2020. | |
| 18. | Multi-instance Publicly Verifiable Time-lock Puzzle and its Applications Abadi, Aydin and Kiayias, Aggelos. 2021. | |
| 19. | A note on the low order assumption in class group of an imaginary quadratic number fields Karim Belabas and Thorsten Kleinjung and Antonio Sanso and Benjamin Wesolowski. 2020. | |
| 20. | CRAFT: Composable Randomness Beacons and Output-Independent Abort MPC From Time-Lock Puzzles Carsten Baum and Bernardo David and Rafael Dowsley and Jesper Buus Nielsen and Sabine Oechsner. 2020. | |
| 21. | Time-release Cryptography from Minimal Circuit Assumptions Samuel Jaques and Hart Montgomery and Arnab Roy. 2020. | |
| 22. | Lower bounds for the depth of modular squaring Benjamin Wesolowski and Ryan Williams. 2020. | |
| 23. | Short-lived zero-knowledge proofs and signatures Arasu Arun and Joseph Bonneau and Jeremy Clark. 2022. | |
| 24. | MinRoot: Candidate Sequential Function for Ethereum VDF Dmitry Khovratovich and Mary Maller and Pratyush Ranjan Tiwari. 2022. | |
| 25. | Transparent Batchable Time-lock Puzzles and Applications to Byzantine Consensus Shravan Srinivasan and Julian Loss and Giulio Malavolta and Kartik Nayak and Charalampos Papamanthou and Sri AravindaKrishnan Thyagarajan. 2022. | |
| 26. | SoK: Delay-based Cryptography Liam Medley and Angelique Faye Loe and Elizabeth A. Quaglia. 2023. | |
| 27. | A Note on Low Order Assumptions in RSA groups István András Seres and Péter Burcsi. 2020. | |
| 28. | Binary quadratic forms Lipa Long. 2019. | |
| 29. | Eth 2.0 Randomness Ben Edgington. 2022. | |
| 30. | Cicada: A framework for private non-interactive on-chain auctions and voting Noemi Glaeser and István András Seres and Michael Zhu and Joseph Bonneau. 2023. |
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