except for those due to lasing. 
In the bias range below that in which lasing occurs, the diffusion current is approximately given by 
formula
0
exp
b
s F
F
act
s
B
V
R I
I
S J
q
k T


−
=




(25) 
As shown on the Figure 
22.
, the injection carrier density in the active layer increases rapidly. 
Figure 22.: Injected carrier density as a function of injected (forward) current. 
[4]
The differential resistance is given by:
1
b
B
s
F
F
dV
k T
R
dI
q I
=
+
(26) 
In the LED-mode operation before lasing, the differential resistance decreases rapidly with injected 
current and approaches the series resistance, R
s
. At the lasing threshold current the differential resistance 
corresponding to the slope of current-voltage characteristics becomes constant as shown in Figure 
22.
 
Most of the injected carrier is converted to lasing output power. As a result of such rapid carrier 
recombination, the carrier density on the active layer becomes constant (Figure 
22.
). 
The junction voltage is given by
(27) 
j
b
s
V
V
R I
=
−
F
by taking 
0
j
F
dV
dI
≈ , we get:
b
s
F
dV
R
dI
=
(28) 

We can see that the differential resistance changes rapidly from the value given by formula (26) to that 
given by formula (28). 
When the bias is low, laser diodes operate in a manner similar to LEDs. 

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