Why am I killing NFET on low side of motor drive?

I am using an STS10N3LH5 on the low side of a half bridge circuit. I have a schottky diode across the motor. For lighting applications we PWM the ground and everything is fine. However, during motor applications we PWM the high side and will sometimes blow the low-side FET. The circuit looks like the following:

The two flyback diodes are so we can try to separate parts during prototyping. Both are capable of the current we are driving the motor with.

There are two possible scenarios. During normal operation the ground is left connected while the high side PWMs. This should pin the low side to ground and sink any current generated by the inductance when the high side is off. The other scenario is when we turn everything off. Currently we turn high and low sides off simultaneously. This leaves the motor generating current until it slows down. However, the schottky has a Vf of about 500mV and the motor has a non-zero resistance in its windings. I would expect this to dissipate any residual current without issue. However, we keep blowing up the low-side FET.

Any ideas would be greatly appreciated. I have looked using the scope and do not see anything that appears high enough voltage to damage the FET.

Thanks