diff --git a/bsip-1203.md b/bsip-1203.md
index 81b39ca..f8b8ec4 100644
--- a/bsip-1203.md
+++ b/bsip-1203.md
@@ -92,6 +92,8 @@ _Field_ | _Purpose_
**`owner`:** | BitShares owner structure specifying weighted list of keys or accounts that may spend this commitment. (Typically lists just one public key, the "AuthKey" for the cTXO.)
**`stealth_memo`:** | Also known as the "transaction receipt" when transmitted off-chain.
**`one_time_key`:** _(EC curve point, 33 bytes)_
**`to`:** Use the AuthKey here! _(EC curve point, 33 bytes)_
**`encrypted_memo`:** Data that recipient needs to "open" the commitment.
_The stealth memo is optional as far as the network is concerned, but essential if you want the recipient to be able to detect the incoming transaction without sending a "receipt."_
+_(An example transaction showing all these fields can be seen in [block 22157273](https://cryptofresh.com/tx/8182e9d78cbce7df281bc252a9e6d87566ca0622). In this Tx, the stealth_memo '`to`' field names the recipient's address key, rather than the cTXO Auth key, and thus breaks unlinkability.)_
+
Since the `stealth_memo` field can be used to record both the OTK and the AuthKey, all the wallet needs to do to scan for incoming transactions is to download batches of stealth memos and, for each one, test whether the combination of the OTK and the wallet's Address key yields the AuthKey. If it does, then use then derive the AES decryption key from _Shared(OTK,AuthKey)_ and use that to read the additional data in `encrypted_memo`.
Structure of `encrypted_memo`:
@@ -101,7 +103,7 @@ _Field_ | _Purpose_
**`from_key`:** | Original use: