Liquidity and Congestion

Gara Mínguez Afonso London School of Economics

Workshop in Economic Theory, UCLA 8th May 2008

Gara Mínguez Afonso

Liquidity and Congestion

Overview

¦ Liquidity as a coordination phenomenon.

¦ Thick market externalities:

Investors provide market liquidity and market liquidity attracts new investors

¦ However . . .

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Gara Mínguez Afonso

Liquidity and Congestion

¦ . . . as investors concentrate on one side of the market, the market becomes “congested” and trade more difficult.

¦ Congestion reduces the returns to participating in one-sided markets and discourages potential investors from entering.

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An alternative view of market liquidity

¦ Arrival of potential investors causes two opposite effects: 1. Coordination: reduces trading costs (attracts new investors) 2. Congestion: reduces returns to participating in this market (discourages new investors)

¦ Market liquidity depends on which of the two effects dominates. When congestion is the dominating effect. . .

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Results:

1. Reducing market frictions can decrease market attractiveness.

2. Diminishing market frictions can deteriorate market liquidity and reduce welfare.

3. Market illiquidity (measured by the price discount) can increase while trading volume rises.

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Liquidity and Congestion

My contribution ¦ Complement the literature on self-fulfilling liquidity by incorporating a second effect: the congestion effect.

¦ Market liquidity results from the tradeoff between market complementarities and the congestion effect.

¦ When congestion is the dominating effect I find some interesting results: Diminishing market frictions can deteriorate liquidity and reduce welfare

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Liquidity and Congestion

The Model ¦ Time is continuous (t ∈ [0, ∞)). ¦ One asset: pays dividend flow d and is in total supply S. ¦ Agents (investors): – Infinitely lived risk-neutral investors. – Hold {0,1} units of the asset. – Time preferences (constant discount rate r > 0). – 3 types of investors in market + Outside investors. Workshop in Economic Theory, UCLA

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Liquidity and Congestion

Types of investors Liquidity shock Nonsearcher

Sellerto-be

h0

hs

Buy 1 unit of the asset

Sell the asset + Exit the market

hb

Liquidity shock OUTSIDE INVESTORS

Buyerto-be Enter the market

Figure 1: Measures of investors.

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Liquidity and Congestion

The Model ¦ Market entry: – Investors are heterogeneous in investment opportunities κ. – The flow of investors entering the economy is defined by f . (f (κ) continuous and strictly positive with support: [κ, κ])

– Only a fraction ν(κ) invests in this market ⇒ Total flow of Rκ investors entering the market: g = κ ν(κ)f (κ)dκ.

¦ Liquidity shocks arrive with Poisson rate γ. (Reduces investors’ valuation from d to d − x, where x > 0)

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Liquidity and Congestion

The Model ¦ Market operates through search: Vayanos and Wang (2007) 1. Investors meet at rates ληs, ληb: – Overall flow of meetings ληbηs. – Meetings always result in trade. 2. Investors bargain over price p of the asset: z . – Prob(buyer-to-be makes offer)= 1+z

– Take-it-or-leave-it offer. Workshop in Economic Theory, UCLA

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Liquidity and Congestion

Equilibrium

Step 1. Measure of Investors

Step 2. Expected Utilities and Price

Step 3. Endogenous Entry Rule

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Liquidity and Congestion

Equilibrium Step 1. Measure of Investors:

¦ Market clearing: η0 + ηs = S

⇒

ηs = S − η0

(1)

¦ Inflow-outflow conditions (steady state): ληbηs = γη0

⇒

g = γηb + ληbηs

⇒

Workshop in Economic Theory, UCLA

γ η0 λÃS − η0 ! γ 1 η0 g =γ 1+ λ S − η0 ηb =

(2) (3)

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Liquidity and Congestion

Measure of Investors

g ×h0 Nonsearcher

Sellerto-be

h0

hs

lhbh s

lhbh s hb

g × hb OUTSIDE INVESTORS

Buyerto-be g

Figure 2: Flows of investors.

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Liquidity and Congestion

Equilibrium Proposition 1 There is a unique solution to the system (1) (3) given by: η0 =

1 A 2γ

(4)

1 ηs = S − A 2γ A γ ηb = λ 2γS − A

where A = (g + γS +

γ2 λ)−

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r

(g + γS +

γ2 2 λ)

(5) (6)

− 4γgS.

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Liquidity and Congestion

Comparative statics (measures of investors)

¦ The measures of every type of investor change in – the flow of new investors entering the market as follows ∂ηb ∂η0 , >0 ∂g ∂g

and

∂ηs <0 ∂g

and

∂η0 >0 ∂λ

– their search abilities ∂ηb ∂ηs , <0 ∂λ ∂λ

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Liquidity and Congestion

Step 2. Expected Utilities and Price

g Nonsearcher

d-x

d

v0

-p

vs

lh s

vb Buyerto-be

Sellerto-be

lhb

g

+p

0 OUTSIDE INVESTORS

Figure 3: Flow of utilities and price.

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Liquidity and Congestion

Expected Utilities and Price

¦ Flow value conditions: rvb = −γvb + ληs(v0 − vb − p)

(7)

rv0 = d + γ(vs − v0)

(8)

rvs = d − x + ληb(p + 0 − vs)

(9)

¦ Bilateral bargaining: p=

z 1 vs + (v0 − vb) 1+z 1+z

Workshop in Economic Theory, UCLA

(10)

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Liquidity and Congestion

Proposition 2 The system of equations (7)-(10) has a unique solution given by:

vb = v0 = vs = p =

x ληsz k r + γ (r + γ + ληs)z + γ ¶ µ d x x γ − k +k r r (r + γ + ληs)z + γ r + γ µ ¶ x x d − k +k r r (r + γ + ληs)z + γ x d −k r r

(11) (12) (13) (14)

(r + γ + ληs)z + γ where k = . (r + γ + ληs)z + (r + γ + ληb)

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Liquidity and Congestion

Comparative statics (price)

¦ The price of the asset is – increasing in the dividend flow and the measure of buyersto-be: ∂p ∂p , >0 ∂d ∂ηb – decreasing in the the buyer’s-to-be bargaining power and the measure of sellers-to-be: ∂p ∂p , <0 ∂z ∂ηs Workshop in Economic Theory, UCLA

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Step 3. Endogenous Entry Rule ¦ Investors choose market comparing vb to valt (valt(κ) = κ). ¦ The fraction ν(κ) of investors who enters our market is:    0

ν(κ) = [0, 1]    1

κ > κ0 κ = κ0 κ < κ0

if if if

¦ The total flow of investors entering this market is: g(κ0) =

Z κ κ

ν(κ)f (κ)dκ ≡ Proportion of investors(κ < κ0)

¦ In equilibrium: Ã vb g ∗ =

Z κ κ

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!

ν ∗(κ)f (κ)dκ = valt(κ∗)

(15)

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Liquidity and Congestion

Definition 1 A market equilibrium consists of a fraction ν(κ) of investors entering the market, measures (ηs, ηb, η0) of investors and expected utilities and prices (vb, v0, vs, p) such that: • (ηs∗, ηb∗, η0∗ ) solve the market-clearing condition and inflowoutflow equations given by the system (1) - (3), • (vb∗, v0∗ , vs∗, p∗) solve the flow-value equations for the expected utilities and the pricing condition given by the system (7) (10), • ν ∗(κ) solves the entering condition given by equation (15). Workshop in Economic Theory, UCLA

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Liquidity and Congestion

Theorem 1 There is a unique market equilibrium. Given valt , vb

valt

∂vb ∂κ0

≤ 0,

∂valt ∂κ0

> 0 and vb > valt |κ0=0 ,

then κ∗ is unique. Given unique κ∗ , g ∗ is unique. Given unique g ∗ , then

vb

k

k1'

k 2' k *

k

- ηs , ηb , η0 unique (Prop. 1) k'

- vs , vb , v0 , p unique (Prop. 2) Equilibrium is unique.

Figure 4: κ∗ defines the outside investment opportunity which makes investors indifferent between entering or not our market.

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Liquidity and Congestion

Market Frictions, Flow of Investors and Liquidity

¦ What are the consequences on market liquidity of a reduction in market frictions?

¦ We need to consider two effects:

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¦ But the equilibrium flow of investors results from the tradeoff between: – Market complementarities: decreasing trading costs, attracts new investors (increasing the flow).

– Congestion effects: one-sided markets discourage new investors from entering this market (diminishing the flow).

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Liquidity and Congestion

Market Liquidity ¦ Liquidity increases in the flow of investors entering the market. – Asset price: p = dr − k xr (r+γ+ληs )z+γ – Illiquidity discount: k xr , where k = (r+γ+λη s )z+(r+γ+ληb )

∂k ∂k < 0, >0 ∂ηb ∂ηs ∂k <0 ∂g

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and

⇒

∂ηs ∂ηb > 0, <0 ∂g ∂g ∂p >0 ∂g

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Gara Mínguez Afonso

Liquidity and Congestion

An Example of a Technological Innovation ¦ We consider a search-based model of asset trading to examine the consequences of the introduction of a new electronic trading system. ¦ Assumption f ∼ fbeta(κ, a = 1, b = 1)[κ = 0, κ = 5] ≡ U[0, 5] ¦ Parameter values: r = 0.01 S=2 Workshop in Economic Theory, UCLA

d=2 x = 0.4d

γ = 0.2 z=1 25

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Liquidity and Congestion

Example: Baseline Setting (a)

(b)

4

λ=1 λ=2 λ=6 λ=20

valt

3.5 3

0.39

0.38

2

g*

v

b

2.5

1.5

0.37

0.36

1 0.35

0.5 0 0

1

2

3

κ’

4

5

6

0.34 1

2

3

4

5

λ

6

7

8

9

10

Figure 5: Improving efficiency (higher value of λ) attracts more investors to our market (higher g ∗ ).

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Liquidity and Congestion

Example: Baseline Setting (a)

(b) 160

η*

b

1.5

p*, v*0, v*s

η*b, η*0, η*s

2

η*

0

η*

1

s

0.5 0 1

2

3

4

5

λ

6

7

8

9

s

145 2

3

4

5

2

3

4

5

λ

6

7

8

9

10

6

7

8

9

10

2

1

1.9

0.9

v*b

η*b / η*s

0

v*

150

140 1

10

p* v*

155

0.8 0.7

1.8 1.7

0.6 1

2

3

4

5

λ

6

7

8

9

10

1.6 1

λ

Figure 6: Equilibrium measures of investors and ratio of buyers-to-be to sellers-to-be (a), expected utilities and price (b) as a function of efficiency λ.

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Liquidity and Congestion

Example: Market Boom (Crash in an Outside Market)

(a)

(b)

1

1

0.8

0.8

f

1.2

f

1.2

0.6

0.6

0.4

0.4

0.2

0.2

0 0

1

2

3

κ

4

5

6

0 0

1

2

3

κ

4

5

6

Figure 7: Beta Distribution: (a = 1, b = 1) (a) and (a = 2, b = 15) (b).

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Liquidity and Congestion

Example: Crash in an Outside Market (a)

(b)

4

0.6

λ=1 λ=2 λ=6 λ=20

3.5 3

0.58 0.56 0.54

2

g*

vb

2.5

valt

0.52

1.5

0.5

1

0.48

0.5

0.46

0 0

0.5

1

κ

1.5

2

0.44

2

4

6

8

10

λ

12

14

16

18

20

Figure 8: Improving efficiency (higher value of λ) discourages investors from entering our market (lower g ∗).

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Liquidity and Congestion

Why reducing frictions makes it less attractive to investors? (a)

(b) η*

b

1.5

η*

1

η*

p*, v*0, v*s

η*b, η*0, η*s

2

0 s

0.5 0 1

2

3

4

5

λ

6

7

8

9

180

v*

0 s

175

2

3

4

5

2

3

4

5

λ

6

7

8

9

10

6

7

8

9

10

0.6

4

v*b

η*b / η*s

p* v*

170 1

10

6

2 1

185

0.55 0.5

2

3

4

5

λ

6

7

8

9

10

1

λ

Figure 9: Equilibrium measures of investors and ratio of buyers-to-be to sellers-to-be (a), expected utilities and price (b) as a function of efficiency λ.

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Liquidity and Congestion

Example: Crash in an Outside Market

¦ Result 1 Decreasing market frictions can reduce the flow of investors moving into our market.

¦ The reason for this counterintuitive result is that lower trading frictions in a one-sided market magnify the effect of congestion, discouraging investors from entering this market.

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Market Frictions and Flow of Investors

¦ Interested in general relationship between the equilibrium flow of investors g ∗ entering the market and market efficiency λ.

¦ Indifference condition: vb = valt ≡ κ ¶ ¶ µ µ x γ −1 = F (S − ηs ) γ 1 + beta 2 r + γ λzηs + [(r + γ)(1 + z) − γ]ηs + γS λη | {z } | {z s } vb (ηs ) κ(ηs ) λzηs2

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Liquidity and Congestion

Market Frictions and Flow of Investors

¦ Rearranging, we get: µ γ

γ 1+ ληs

¶ (S − ηs ) =

a+b−1 X ³ j=a

´j a + b − 1´³ x λzηs2 j r + γ λzηs2 + [(r + γ)(1 + z) − γ]ηs + γS ³ ´a+b−1−j λzηs2 x 1− r + γ λzηs2 + [(r + γ)(1 + z) − γ]ηs + γS

¦ Polynomial of degree 2(a + b) in ηs.

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Liquidity and Congestion

Simple Case a = 1, b = 1 ¦ Indifference condition: vb = κ x λzηs2 = κ + (κ − κ)γ r + γ λzηs2 + [(r + γ)(1 + z) − γ]ηs + γS

µ

γ 1+ ληs

¶ (S − ηs )

¦ Reorganising terms yields a polynomial of degree four in ηs : h i x 2 4 2 λ z(κ − κ)γηs + λ(κ − κ)γC − λzD + λ z ηs3 + r+γ h i 2 + λ(κ − κ)γ S(1 − z) − CD ηs2 − h i 2 − γSD + (κ − κ)γ SC ηs − (κ − κ)γ 3 S 2 = 0 where C = (r + γ)(1 + z) − γ and D = λκ + λ(κ − κ)γS − (κ − κ)γ 2 . ¦ There exists closed-form solution to this equation.

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Liquidity and Congestion

Market Frictions and Flow of Investors

¦ We solve for ηs∗ using the bisection method.

¦ Once we compute ηs∗, we can derive g ∗: g ∗ = g ∗(λ, γ, |{z} r , |{z} S , |{z} x , |{z} z , |a, b,{zκ, κ}) −

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+

+

+

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Liquidity and Congestion

0.56

1 0.54 r=0.01 r=0.03 r=0.05 r=0.07

g*

g*

0.52

0.5

0.6

0.4

0.48

0.2

0.46

0.44 2

S=4 S=3 S=2 S=1

0.8

4

6

8

10

λ

12

14

16

18

0 2

20

0.65

4

6

8

10

λ

12

14

16

18

20

0.75 0.7

0.6

x=2 x=1.25 x=0.75 x=0.5

0.55

z=5 z=2 z=1 z=0.5

0.65

g*

g*

0.6 0.55

0.5

0.5 0.45 0.45 0.4 2

4

6

8

10

λ

12

14

16

18

20

0.4 2

4

6

8

10

λ

12

14

16

18

20

Figure 10: g ∗ as a function of λ for different values of r, S, x and z.

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Liquidity and Congestion 20

1

18

0.8

16

g*

0.6

14

0.4

12

λ

0.2

10

0 20

8 15

6 10 5

λ

0

1

0

4

4

3

2

2

0.5

γ

0.8

0.8

0.7

0.7

0.6

0.6

0.5

0.5

1.5

2

γ

2.5

3

γ=0.5 γ=1 γ=1.5 γ=2 γ=2.5

g*

0.9

g*

0.9

1

0.4

0.4

0.3 0.2 0.1 0

0.3

γ=0.5 γ=0.4 γ=0.3 γ=0.2 γ=0.1 2

4

6

8

10

λ

12

14

16

18

0.2 0.1 20

0

2

4

6

8

10

λ

12

14

16

18

20

Figure 11: g ∗ as a function of market efficiency λ and liquidity shocks γ.

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Liquidity and Congestion

Market Frictions, Liquidity and Welfare

¦ The impact of market frictions on liquidity is non-trivial. ¦ Interesting example: Fire-sale. ¦ Measure welfare by the weighted sum of investors’ expected utilities (weights given by measure ofZevery type of investor): κ W = |ηbvb + η0{zv0 + ηsvs} + κf (κ)dκ (16) Winside investors

Workshop in Economic Theory, UCLA

∗

|κ {z } Woutside investors

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Liquidity and Congestion

Welfare ¦ Measure of welfare: Z W = Winside

investors

+ Woutside

investors

κ

κf (κ)dκ

= ηb v b + η0 v 0 + ηs v s + κ

∗

where:

Winside

investors

=

d 1 S − kx r r+γ

γ S r

£

investors

=

£

(γ + ληs )z + (r + γ) + ηs (r + 2γ + ληs )z + (r + γ)

h

Woutside

¤

(r + γ + ληs )z + γ

i

"

a a 1 − Fbeta (κ∗ ; a + 1, b) = 1− a+b a+b

Workshop in Economic Theory, UCLA

¤

X ¡a + b¢

#

a+b

j=a+1

j

(κ∗ )j (1 − κ∗ )a+b−j

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Liquidity and Congestion

Example: Fire-sale Baseline

Fire-sale 2

b

1.5

η*

1

η*

b

s

0.5 2

3

4

5

λ

6

7

8

9

η*

1

η*

0 s

0.5 0 2

10

3

4

5

3

4

5

6

7

8

9

10

6

7

8

9

10

λ

1

s

1 0.9

η* / η*

0.8

b

η*b / η*s

b

1.5

0

0

0 1

η*

s

η*

η* , η* , η*

η*b, η*0, η*s

2

0.7

0.5

0.6 1

2

3

4

5

λ

6

7

8

9

10

0 2

λ

Figure 12: Equilibrium measures of investors and ratio of buyers-to-be to sellers-to-be as a function of efficiency λ. (γ = 0.4)

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Liquidity and Congestion 128

η* η*

1

η*

s

0.5 3

4

5

6

λ

7

8

9

126

122

10

2

3

4

5

3

4

5

3

4

5

6

7

8

9

10

6

7

8

9

10

6

7

8

9

10

λ

2

v*b

η*b / η*s

s

124

1

0.5

0 2

0

v*

0

0

0 2

p* v*

s

b

1.5

p*, v* , v*

η*b, η*0, η*s

2

3

4

5

6

λ

7

8

9

1.5

1 2

10

78.5

λ

250 249.5

78

249 248.5

Welfare

Illiquidity

77.5

77

76.5

248 247.5 247 246.5

76 246

75.5 2

3

4

5

6

λ

7

8

9

10

245.5 2

λ

Figure 13: Measures, utilities, price, illiquidity and welfare as a function of λ.

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Liquidity and Congestion

Example: Fire-sale

¦ Result 2 Diminishing market frictions can deteriorate market liquidity and reduce welfare.

¦ I NTUITION : Reducing frictions in this distressed market magnifies the effect of congestion and results in a higher price discount and hence in a less liquid market. Also, investors who hold this asset and those trying to sell it are clearly worse-off as the market becomes more one-sided, which leads to a decrease in overall welfare.

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Liquidity and Congestion

Example: Fire-sale (a)

(b) 0.36

78

0.34

Trading Volume

78.5

Illiquidity

77.5

77

76.5

76

75.5 2

0.32

0.3

0.28

0.26

3

4

5

6

λ

7

8

9

10

0.24 2

3

4

5

6

λ

7

8

9

10

Figure 14: Illiquidity measured by price discount (a) and trading volume (b) as a function of the market efficiency λ.

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Liquidity and Congestion

Example: Fire-sale

¦ Result 3 Market illiquidity, measured by the price discount, can increase while trading volume rises.

¦ I NTUITION : During a fire sale, reducing search frictions amplifies the effect of congestion, resulting in a less liquid market (Result 2).

But a more

efficient search process also increases the frequency of meetings between the investors. More frequent meetings translate into a higher trading volume.

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Liquidity and Congestion

Related literature ¦ Self-fulfilling liquidity: Brunnermeier and Pedersen (2007), Gromb and Vayanos (2002), Pagano (1989), Dow (2004), Plantin (2004) ¦ Search models: Phelps (1972), Diamond (1982), Pissarides (1985) ¦ Search in asset pricing: – Duffie et al. (2005, 2007), Lagos and Rocheteau (2007) – Vayanos and Wang (2007), Weill (2007), Vayanos and Weill (2007) ¦ Asset pricing with exogenous trading costs: Amihud and Mendelson (1986), Vayanos (1998), Acharya and Pedersen (2005) ¦ Huang and Wang (2007)

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Liquidity and Congestion

Conclusions ¦ Search-based model to study the impact of market frictions on liquidity and asset price. ¦ Market liquidity depends on a tradeoff between complementarities and a congestion effect. When congestion dominates: 1. Reducing frictions can decrease market attractiveness. 2. Diminishing market frictions can deteriorate market liquidity and reduce welfare. 3. Market illiquidity (measured by the price discount) can increase while trading volume rises.

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