I keep coming back to this QA. And I did not find the existing answers nuanced enough, so I am adding this one.
TL;DR. Yes or No, depending on your event sourcing usage.
There are two primary kinds of event sourced systems of which I am aware.
Downstream event processors = Yes
In this kind of system, events happen in the real world and are recorded as facts. Such as a warehouse system to keep track of pallets of products. There are basically no conflicting events. Everything has already happened, even if it was wrong. (I.e. pallet 123456 put on truck A, but was scheduled for truck B.) Then later the facts are checked for exceptions via reporting mechanisms. Kafka seems well-suited for this kind of down-stream, event processing application.
In this context, it is understandable why Kafka folks are advocating it as an Event Sourcing solution. Because it is quite similar to how it is already used in, for example, click streams. However, people using the term Event Sourcing (as opposed to Stream Processing) are likely referring to the second usage...
Application-controlled source of truth = No
This kind of application declares its own events as a result of user requests passing through business logic. Kafka does not work well in this case for two primary reasons.
Lack of entity isolation
This scenario needs the ability to load the event stream for a specific entity. The common reason for this is to build a transient write model for the business logic to use to process the request. Doing this is impractical in Kafka. Using topic-per-entity could allow this, except this is a non-starter when there may be thousands or millions of that entity. This is due to technical limits in Kafka/Zookeeper. Using topic-per-type is recommended instead for Kafka, but this would require loading events for every entity of that type just to get events for a single entity. Since you cannot tell by log position which events belong to which entity. Even using Snapshots to start from a known log position, this could be a significant number of events to churn through. But snapshots cannot help you with code changes. Because adding new features to the business logic may render previous snapshots structurally incompatible. So it is still necessary to do a topic replay in those cases to build a new model. One of the main reasons to use a transient write model instead of a persisted one is to make business logic changes cheap and easy to deploy.
Lack of conflict detection
Secondly, users can create race conditions due to concurrent requests against the same entity. It may be quite undesirable to save conflicting events and resolve them after the fact. So it is important to be able to prevent conflicting events. To scale request load, it is common to use stateless services while preventing write conflicts using conditional writes (only write if the last entity event was #x). A.k.a. Optimistic Concurrency. Kafka does not support optimistic concurrency. Even if it supported it at the topic level, it would need to be all the way down to the entity level to be effective. To use Kafka and prevent conflicting events, you would need to use a stateful, serialized writer at the application level. This is a significant architectural requirement/restriction.
Update per comment
This was too big to fit in a comment. It seems that most people roll their own event storage implementation on top of an existing database. For non-distributed scenarios, like internal back-ends or stand-alone products, it is well-documented how to create a SQL-based event store. And there are libraries available on top of a various kinds databases. There is also EventStore, which is built for this purpose.
In distributed scenarios, I've seen a couple of different implementations. Jet's Panther project uses Azure CosmosDB, with the Change Feed feature to notify listeners. Another similar implementation I've heard about on AWS is using DynamoDB with its Streams feature to notify listeners. The partition key probably should be the stream id for best data distribution (to lessen the amount of over-provisioning). However, a full replay across streams in Dynamo is expensive (read and cost-wise). So this impl was also setup for Dynamo Streams to dump events to S3. When a new listener comes online, or an existing listener wants a full replay, it would read S3 to catch up first.
My current project is a multi-tenant scenario, and I rolled my own on top of Postgres. Something like Citus seems appropriate for scalability, partitioning by tentant+stream.
Kafka is still very useful in distributed scenarios. It is a non-trivial problem to expose each service's events to other services. An event store is not built for that typically, but that's precisely what Kafka does well. Each service has its own internal source of truth (could be event storage or otherwise), but listens to Kafka to know what is happening "outside". The team may also post its service events to Kafka to inform the "outside" of interesting things the service did.