# Cipher disk

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Encryption and decryption tool consisting of two metal plates with alphabets

A metal cipher disk

Reconstruction of an [Aeneas](/source/Aeneas_Tacticus) cipher disk, 5th century BC, [Thessaloniki Science Center and Technology Museum](/source/Thessaloniki_Science_Center_and_Technology_Museum)

A **cipher disk** is an [enciphering](/source/Encipher) and [deciphering](/source/Decipher) tool developed in 1470 by the Italian architect and author [Leon Battista Alberti](/source/Leon_Battista_Alberti). He constructed a device, (eponymously called the [Alberti cipher disk](/source/Alberti_cipher_disk)) consisting of two concentric circular plates mounted one on top of the other. The larger plate is called the "stationary" and the smaller one the "moveable" since the smaller one could move on top of the "stationary".[1]

The first incarnation of the disk had plates made of copper and featured the alphabet, in order, inscribed on the outer edge of each disk in cells split evenly along the circumference of the circle. This enabled the two alphabets to move relative to each other creating an easy-to-use key. Rather than using an impractical and complicated table indicating the encryption method, one could use the much simpler cipher disk. This made both encryption and decryption faster, simpler and less prone to error.

## Methods of encryption

The cipher disk can be used in one of two ways. The code can be a consistent monoalphabetic substitution for the entire cipher or the disks can be moved periodically throughout the cipher making it polyalphabetic. For a monoalphabetic use, the sender and the person receiving the messages would agree on a [cipher key](/source/Key_(cryptography)) setting (e.g., the "G" in the regular alphabet would be positioned next to the "Q" in the cipher alphabet). The entire message is then encoded according to this key.

In addition to simple [substitution ciphers](/source/Substitution_cipher), the cipher disk opened the way for convenient [polyalphabetic ciphers](/source/Polyalphabetic_cipher). An easy way to do this is for the sender and the recipient to agree that a certain number of characters into the message, the scales would be shifted one character to the right, repeating the procedure every (say) tenth letter. This would make the message much more difficult to decrypt.

## Variations

Modern representation of the [Union](/source/Union_(American_Civil_War)) Cipher Disk, from the [American Civil War](/source/American_Civil_War), which was 3.75 inches (95 mm) in diameter and made of light yellow heavy card stock. It consisted of two concentric disks of unequal size revolving on a central pivot. The disks were divided along their outer edges into 30 equal compartments. The smaller inner disk contained letters, terminations and word pauses, while the outer disk contained groups of signal numbers. For easier recognition, the number eight represented two. The initials A.J.M. represent the Chief Signal Officer General [Albert J. Myer](/source/Albert_J._Myer). Each disk had a [control number](/source/Controlled_Cryptographic_Item) used for accountability.

Cipher disks had many small variations on the basic design. Instead of letters it would occasionally use combinations of numbers on the outer disk with each combination corresponding to a letter. To make the encryption especially hard to crack, the advanced cipher disk would only use combinations of two numbers. Instead of 1 and 2 though, 1 and 8 were used since these numerals look the same upside down (as things often are on a cipher disk) as they do right side up.[2]

Cipher disks would also add additional symbols for commonly used combinations of letters like "ing", "tion", and "ed". Symbols were also frequently added to indicate "and" at the end of a word.

## Weaknesses

When encoding a message using a cipher disk, a character is always used to mean “end of word.” The frequency of said character is abnormally high and thus easily detected.[2] If this character, however, is omitted, then the words run together and it takes much longer for the recipient to read the message. To remedy this, some cipher disks now have multiple characters that stand for "end of word." Similarly a cipher disk may also have multiple characters that could be used for the letter "e" (the most common letter in English)[3] so that instead of having a character with a frequency of roughly 13%, there would be two characters that stood for "e" - each with a frequency of 6% or so. Users could also use a keyword so that all the characters including the letter e would change throughout the ciphertext.

## Popular culture

Since the 1930s, cipher disks have been labeled "decoders" and have been used for novelties. Many of the cipher disks that were [radio premiums](/source/Radio_premiums) were called "[secret decoder rings](/source/Secret_decoder_ring)."

## See also

- [Alberti cipher disk](/source/Alberti_cipher_disk), also known as *formula*

## References

1. **[^](#cite_ref-dev_1-0)** Deavours, Cipher, et al. Cryptology: Machines, History & Methods. Norwood, MA: Artech House, 1989.

1. ^ [***a***](#cite_ref-hazel_2-0) [***b***](#cite_ref-hazel_2-1) Barker, Wayne G., ed. *The History of Codes and Ciphers in the United States Prior to World War I*. Vol. 20. Laguna Hills: Aegean Park P, 1978.

1. **[^](#cite_ref-3)** [Singh, Simon](/source/Singh%2C_Simon). *[The Code Book](/source/The_Code_Book).* New York: Doubleday, 1999.

v t e Cipher machines Rotor machines CCM Enigma M-125 Fialka Hebern HX-63 KL-7 Lacida M-325 Mercury NEMA OMI RED SG-39 SG-41 SIGABA SIGCUM Singlet Typex Mechanical Bazeries cylinder C-36 C-52 CD-57 Cipher disk HC-9 Kryha Jefferson disk M-94 M-209 Reihenschieber Scytale Teleprinter 5-UCO BID 770 DUDEK KW-26 KW-37 Lorenz SZ 40/42 Siemens and Halske T52 SIGTOT Secure voice BID 150 FASCINATOR KY-3 KY-58 KY-68 NESTOR OMNI SCIP Sectéra Secure Module SIGSALY STE STU-II STU-III VINSON Other JADE KG-84 KL-43 KL-51 Noreen Red Purple Pinwheel Rockex Computer hardware AES instruction set Intel SHA extensions IBM 4758 IBM 4764 v t e Cryptography General History of cryptography Outline of cryptography Classical cipher Cryptographic protocol Authentication protocol Cryptographic primitive Cryptanalysis Cryptocurrency Cryptosystem Cryptographic nonce Cryptovirology Hash function Cryptographic hash function Key derivation function Secure Hash Algorithms Digital signature Kleptography Key (cryptography) Key exchange Key generator Key schedule Key stretching Keygen Machines Ransomware Random number generation Cryptographically secure pseudorandom number generator (CSPRNG) Pseudorandom noise (PRN) Secure channel Insecure channel Subliminal channel Encryption Decryption End-to-end encryption Harvest now, decrypt later Information-theoretic security Plaintext Codetext Ciphertext Shared secret Trapdoor function Trusted timestamping Key-based routing Onion routing Garlic routing Kademlia Mix network Mathematics Cryptographic hash function Block cipher Stream cipher Symmetric-key algorithm Authenticated encryption Public-key cryptography Quantum key distribution Quantum cryptography Post-quantum cryptography Message authentication code Random numbers Steganography Category

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Adapted from the Wikipedia article [Cipher disk](https://en.wikipedia.org/wiki/Cipher_disk) by Wikipedia contributors ([contributor history](https://en.wikipedia.org/wiki/Cipher_disk?action=history)). Available under [Creative Commons Attribution-ShareAlike 4.0 International](https://creativecommons.org/licenses/by-sa/4.0/). Changes may have been made.
