A typical client-server DBMS is not just a single language, but a combination of several languages and technologies that work together, including (but not limited to):
- Physical storage - typically OS files or even raw partitions on top of which are DBMS processes and threads.
- Data model - tables, indexes, constraints etc.
- A language for describing the data model - typically Data Definition Language (DDL) SQL.
- Query language - typically Data Manipulation Language (DML) SQL.
- Procedural SQL extensions for writing triggers and stored procedures, such as PL/SQL in Oracle or Transact-SQL in MS SQL Server.
- Managed language such as Java or C# that executes "within" DBMS and can also be used to implement triggers and stored procedures.
- Various administrative tools, typically both command-line and GUI.
- Drivers and APIs enabling access to database from general-purpose languages. This includes DBMS-independent APIs such as ODBC, OLEDB, ADO.NET, JDBC, BDE etc... as well as DBMS-specific APIs such as Oracle's OCI.
- On top of all that sit client applications that actually implement some useful functionality, written in these general-purpose languages. There are all kinds of clients, from "classic" to multi-tier, but this is another topic...
There are also much simpler "embedded" DBMSes, intended to be used as a local "private" storage for specific application, not in client-server environment.
Most DBMSes are "relational" but there are also "object-oriented" and "No SQL" / "key-value store" systems and all kinds of hybrids thereof.
So, could you implement a DBMS in "normal" language such as Java or C#?
Theoretically, yes. Practically, no!
Enabling clients to access data concurrently, safely and quickly is a hard problem that DBMSes solve. Viewing a database as a set of tables is deceptively simple - there is a ton of complexity that allows the DBMS to maintain this illusion of (relative) simplicity.
Just as you won't use assembler in most situations because higher-level language implements concepts that allow you to be productive, and just as you won't implement your own data structures and algorithms if appropriate libraries are already available, you also won't try to manage your data if there is a DBMS available that covers your needs.