The Atbash cipher is a particular type of monoalphabetic cipher formed by taking the alphabet (or abjad, syllabary, etc.) and mapping it to its reverse, so that the first letter becomes the last letter, the second letter becomes the second to last letter, and so on. For example, the Hebrew alphabet would work like this:
Plain
א
ב
ג
ד
ה
ו
ז
ח
ט
י
כ
ל
מ
נ
ס
ע
פ
צ
ק
ר
ש
ת
Cipher
ת
ש
ר
ק
צ
פ
ע
ס
נ
מ
ל
כ
י
ט
ח
ז
ו
ה
ד
ג
ב
א
Due to the fact that there is only one way to perform this, the Atbash cipher provides no communications security, as it lacks any sort of key. If multiple collating orders are available, which one was used in encryption can be used as a key, but this does not provide significantly more security, considering that only a few letters can give away which one was used.
History
The name derives from the first, last, second, and second to last Hebrew letters (Aleph–Taw–Bet–Shin).
By shifting the correlation one space to the left or the right, one may derive a variant Batgash (named for Bet–Taw–Gimel–Shin) or Ashbar (for Aleph–Shin–Bet–Reish). Either alternative mapping leaves one letter unsubstituted; respectively Aleph and Taw.
In the Bible
Several biblical words are described by commentators[n 1] as being examples of Atbash:[1][2][3]
Jeremiah 25:26 – "The king of Sheshach shall drink after them" – Sheshach meaning Babylon in Atbash (בבל bbl → ששך ššk).
Jeremiah 51:1 – "Behold, I will raise up against Babylon, and against the inhabitants of Lev-kamai, a destroying wind." – Lev-kamai meaning Chaldeans (כשדים kśdym → לבקמי lbqmy).
Jeremiah 51:41 – "How has Sheshach been captured! and the praise of the whole earth taken! How has Babylon become a curse among the nations!" – Sheshach meaning Babylon (בבל bbl → ששך ššk).
Regarding a potential Atbash switch of a single letter:
Exodus 20:20 - "Any place I will mention My name" (אזכיר) → "Any place you will mention My name" (תזכיר) (a → t), according to Yom Tov Asevilli[4]
Relationship to the affine cipher
The Atbash cipher can be seen as a special case of the affine cipher.
Under the standard affine convention, an alphabet of m letters is mapped to the numbers 0, 1, ... , m − 1. (The Hebrew alphabet has m = 22, and the standard Latin alphabet has m = 26). The Atbash cipher may then be enciphered and deciphered using the encryption function for an affine cipher by setting a = b = (m − 1):
This may be simplified to
If, instead, the m letters of the alphabet are mapped to 1, 2, ..., m, then the encryption and decryption function for the Atbash cipher becomes
^Helmbold, A. K. (2009). Silva, Moisés (ed.). The Zondervan Encyclopedia of the Bible, Volume 1 (Revised ed.). Grand Rapids: Zondervan. p. 430. ISBN9780310876960.