Credit default swap

A credit default swap (CDS) is a credit derivative contract between two counterparties. The buyer makes periodic payments (premium leg) to the seller, and in return receives a payoff (protection or default leg) if an underlying financial instrument defaults.[1] CDS contracts have been compared to insurance, because the buyer pays a premium and, in return, receives a sum of money if a specified event occurs. However, there are a number of differences between CDS and insurance; the buyer of a CDS does not need to own the underlying security; in fact the buyer does not even have to suffer a loss from the default event.[2][3][4]

Contents

Description

Buyer purchased a CDS at time t0 and makes regular premium payments at times t1, t2, t3, and t4. If the associated credit instrument suffers no credit event, then the buyer continues paying premiums at t5, t6 and so on until the end of the contract at time tn.
Buyer purchased a CDS at time t0 and makes regular premium payments at times t1, t2, t3, and t4. If the associated credit instrument suffers no credit event, then the buyer continues paying premiums at t5, t6 and so on until the end of the contract at time tn.
 
However, if the associated credit instrument suffered a credit event at t5, then the Protection seller pays the buyer for the loss, and the buyer would cease paying premiums.
However, if the associated credit instrument suffered a credit event at t5, then the Protection seller pays the buyer for the loss, and the buyer would cease paying premiums.

A credit default swap (CDS) is a swap contract in which the buyer of the CDS makes a series of payments to the seller and, in exchange, receives a payoff if a credit instrument (typically a bond or loan) goes into default or on the occurrence of a specified credit event (for example bankruptcy or restructuring). Credit Default Swaps can be bought by any (relatively sophisticated) investor; it is not necessary for the buyer to own the underlying credit instrument.[5]

As an example, imagine that an investor buys a CDS from ABC Bank, where the reference entity is XYZ Corp. The investor will make regular payments to ABC Bank, and if XYZ Corp defaults on its debt (i.e., misses a coupon payment or does not repay it), the investor will receive a one-off payment from ABC Bank and the CDS contract is terminated. If the investor actually owns XYZ Corp debt, the CDS can be thought of as hedging. But investors can also buy CDS contracts referencing XYZ Corp debt, without actually owning any XYZ Corp debt. This may be done for speculative purposes, to bet against the solvency of XYZ Corp in a gamble to make money if it fails, or to hedge investments in other companies whose fortunes are expected to be similar to those of XYZ.

If the reference entity (XYZ Corp) defaults, one of two things can happen:

The price, or spread, of a CDS is the annual amount the protection buyer must pay the protection seller over the length of the contract, expressed as a percentage of the notional amount. For example, if the CDS spread of XYZ Corp is 50 basis points, or 0.5% (1 basis point = 0.01%), then an investor buying $10 million worth of protection from ABC Bank must pay the bank $50,000 per year. These payments continue until either the CDS contract expires, or until XYZ Corp defaults.

All things being equal, a company with a higher CDS spread is considered more likely to default by the market, since a higher fee is being charged to protect against this happening.

Uses

Like most financial derivatives, credit default swaps can be used by investors for speculation, hedging and arbitrage.

Speculation

Credit default swaps allow investors to speculate on changes in an entity's credit quality, since generally CDS spreads will increase as credit-worthiness declines, and decline as credit-worthiness increases. Therefore an investor might buy CDS protection on a company in order to speculate that a company is about to default. Alternatively, an investor might sell protection if they think that a company is not going to default.

For example, a hedge fund believes that XYZ Corp will soon default on its debt. Therefore it buys $10 million worth of CDS protection for 2 years from ABC Bank, with XYZ Corp as the reference entity, at a spread of 500 basis points (=5%) per annum.

Note that there is a third possibility in the above scenario; the hedge fund could decide to liquidate its position after a certain period of time in an attempt to lock in its gains or losses. For example:

Transactions such as these do not even have to be entered into over the long-term. If XYZ Corp's CDS spread had widened by just a couple of basis points over the course of one day, the hedge fund could have entered into an offsetting contract immediately and made a small profit over the life of the two CDS contracts.

Hedging

Credit default swaps are often used to manage the credit risk (ie the risk of default) which arises from holding debt. Typically, the holder of, for example, a corporate bond may hedge their exposure by entering into a CDS contract as the buyer of protection. If the bond goes into default, the proceeds from the CDS contract will cancel out the losses on the underlying bond.

For example, a pension fund owns $10 million of a five-year bond issued by Risky Corp. In order to manage the risk of losing money if Risky Corp defaults on its debt, the pension fund buys a CDS from Derivative Bank in a notional amount of $10 million. The CDS trades at 200 basis points (200 basis points = 2.00 percent). In return for this credit protection, the pension fund pays 2% of 10 million ($200,000) per annum in quarterly installments of $50,000 to Derivative Bank.

(Note that the pension fund now has counterparty risk with Derivative Bank; if the bank is in financial difficulties it may not be able to refund the full $10 million to the pension fund.)

Arbitrage

Capital Structure Arbitrage is an example of an arbitrage strategy which utilises CDS transactions.[6] This technique relies on the fact that a company's stock price and its CDS spread should exhibit negative correlation; ie if the outlook for a company improves then its share price should go up and its CDS spread should tighten, since it is less likely to default on its debt. However if its outlook worsens then its CDS spread should widen and its stock price should fall. Techniques reliant on this are known as capital structure arbitrage because they exploit market inefficiencies between different parts of the same company's capital structure; i.e. mis-pricings between a company's debt and equity. An arbitrageur will attempt to exploit the spread between a company's CDS and its equity in certain situations. For example, if a company has announced some bad news and its share price has dropped by 25%, but its CDS spread has remained unchanged, then an investor might expect the CDS spread to increase relative to the share price. Therefore a basic strategy would be to go long on the CDS spread (by buying CDS protection) while simultaneously hedging oneself by buying the underlying stock. This technique would benefit in the event of the CDS spread widening relative to the equity price, but would lose money if the company's CDS spread tightened relative to its equity.

An interesting situation in which the inverse correlation between a company's stock price and CDS spread breaks down is during a leveraged buyout (LBO). Frequently this will lead to the company's CDS spread widening due to the extra debt that will soon be put on the company's books, but also an increase in its share price, since buyers of a company usually end up paying a premium.

Another common arbitrage strategy aims to exploit the fact that the swap adjusted spread of a CDS should trade closely with that of the underlying cash bond issued by the reference entity. Misalignments in spreads may occur due to technical reasons such as specific settlement differences, shortages in a particular underlying instrument, and the existence of buyers constrained from buying exotic derivatives. The difference between CDS spreads and asset swap spreads is called the basis and should theoretically be close to zero. Basis trades can aim to exploit any differences to make risk-free profits.

History

Conception

Credit Default Swaps were invented in 1997 by a team working for JPMorgan Chase[7][8]. Credit Default Swaps became legal, and illegal to regulate, with the Commodity Futures Modernization Act of 2000. They were introduced and rushed through congress as a companion bill, the last day before the Christmas holiday. It was never debated in the House or the Senate. The bill was 11,000 pages long. Less than a week after it was passed by congress, President Clinton signed it into Public Law (106-554) on December 21, 2000.

Market growth

As the market matured CDSs were increasingly used by investors wishing to bet for or against the likelihood that particular companies or portfolios would suffer financial difficulties; rather than to insure against bad debt -see above. The market size for Credit Default Swaps began to grow rapidly from 2003, by late 2007 it was approximately ten times as large as it had been four years previously. [9]

Market as of 2008

Composition of the United States 15.5 trillion US dollar CDS market at the end of 2008 Q2. Green tints show Prime asset CDSs, reddish tints show sub-prime asset CDSs. Numbers followed by "Y" indicate years until maturity.
Proportion of CDSs nominals (lower left) held by United States banks compared to all derivatives, in 2008Q2. The black disc represents the 2008 public debt.

Credit default swaps are by far the most widely traded credit derivative product.[10] The Bank for International Settlements reported the notional amount on outstanding credit default swaps to be $42.6 trillion[11] in June 2007, up from $28.9 trillion in December 2006 ($13.9 trillion in December 2005). By the end of 2007 there were an estimated $45 trillion[12] to $62.2 trillion[13] worth of credit default swap contracts outstanding worldwide.

It is important to note that since default is a relatively rare occurrence (historically around 0.2% of investment grade companies will default in any one year[14]), in most CDS contracts the only payments are the spread payments from buyer to seller. Thus, although the above figures for outstanding notionals sound very large, the net cashflows will generally only be a small fraction of this total.

There is no centralised exchange or clearing house for CDS transactions; they are all done over the counter (OTC). This has led to recent calls for the market to open up in terms of transparency and regulation[15]. In November 2008, the Depository Trust and Clearing Corp, which runs a warehouse for CDS trade confirmations accounting for around 90% of the total market[16], announced that it will release market data on the outstanding notional of CDS trades on a weekly basis.[17] The data can be accessed on the DTCC's website here: [3]

This announcement coincides with plans to establish a centralised clearing house for CDS transactions by the end of 2008. US regulators (such as the SEC and CFTC) are monitoring negotiations. Currently two rival groups have announced their plans; one group is made up of a consortium of banks along with DTCC, the ICE and The Clearing Corporation, while the other is a joint venture between the Chicago Mercantile Exchange and the hedge fund Citadel.[18] A clearing house would become the central counterparty to both sides of a CDS transaction, thereby reducing the counterparty risk that both buyer and seller face. There are also ongoing discussions in Europe as to whether a separate European-regulated clearing house should be established as well.

Terms of a typical CDS contract

A CDS contract is typically documented under a confirmation referencing the credit derivatives definitions as published by the International Swaps and Derivatives Association.[19] The confirmation typically specifies a reference entity, a corporation or sovereign that generally, although not always, has debt outstanding, and a reference obligation, usually an unsubordinated corporate bond or government bond. The period over which default protection extends is defined by the contract effective date and scheduled termination date.

The confirmation also specifies a calculation agent who is responsible for making determinations as to successors and substitute reference obligations (for example necessary if the original reference obligation was a loan that is repaid before the expiry of the contract), and for performing various calculation and administrative functions in connection with the transaction. By market convention, in contracts between CDS dealers and end-users, the dealer is generally the calculation agent, and in contracts between CDS dealers, the protection seller is generally the calculation agent. It is not the responsibility of the calculation agent to determine whether or not a credit event has occurred but rather a matter of fact that, pursuant to the terms of typical contracts, must be supported by publicly available information delivered along with a credit event notice. Typical CDS contracts do not provide an internal mechanism for challenging the occurrence or non-occurrence of a credit event and rather leave the matter to the courts if necessary, though actual instances of specific events being disputed are relatively rare.

CDS confirmations also specify the credit events that will give rise to payment obligations by the protection seller and delivery obligations by the protection buyer. Typical credit events include bankruptcy with respect to the reference entity and failure to pay with respect to its direct or guaranteed bond or loan debt. CDS written on North American investment grade corporate reference entities, European corporate reference entities and sovereigns generally also include restructuring as a credit event, whereas trades referencing North American high yield corporate reference entities typically do not. The definition of restructuring is quite technical but is essentially intended to respond to circumstances where a reference entity, as a result of the deterioration of its credit, negotiates changes in the terms in its debt with its creditors as an alternative to formal insolvency proceedings (i.e., the debt is restructured). This practice is far more typical in jurisdictions that do not provide protective status to insolvent debtors similar to that provided by Chapter 11 of the United States Bankruptcy Code. In particular, concerns arising out of Conseco's restructuring in 2000 led to the credit event's removal from North American high yield trades.[20]

Finally, standard CDS contracts specify deliverable obligation characteristics that limit the range of obligations that a protection buyer may deliver upon a credit event. Trading conventions for deliverable obligation characteristics vary for different markets and CDS contract types. Typical limitations include that deliverable debt be a bond or loan, that it have a maximum maturity of 30 years, that it not be subordinated, that it not be subject to transfer restrictions (other than Rule 144A), that it be of a standard currency and that it not be subject to some contingency before becoming due.

Settlement

As described in an earlier section, if a credit event occurs then CDS contracts can either be physically settled or cash settled.

The development and growth of the CDS market has meant that on many companies there is now a much larger outstanding notional of CDS contracts than the outstanding notional value of its debt obligations. (This is because many parties made CDS contracts for speculative purposes, without actually owning any debt for which they wanted to insure against default.) For example, at the time it filed for bankruptcy on 14 September 2008, Lehman Brothers had approximately $155 billion of outstanding debt[21] but around $400 billion notional value of CDS contracts had been written which referenced this debt.[22] Clearly not all of these contracts could be physically settled, since there was not enough outstanding Lehman Brothers debt to fulfill all of the contracts, demonstrating the necessity for cash settled CDS trades. The trade confirm produced when a CDS is traded will state whether the contract is to be physically or cash settled.

Auctions

When a credit event occurs on a major company on which a lot of CDS contracts are written, an auction (also known as a credit-fixing event) may be held to facilitate settlement of a large number of contracts at once, at a fixed cash settlement price. During the auction process participating dealers (eg the big investment banks) submit prices at which they would buy and sell the reference entity's debt obligations. An algorithm is then used to fix a final price. According to the International Swaps and Derivatives Association (ISDA), who organised them, auctions have recently proved an effective way of settling the very large volume of outstanding CDS contracts written on companies such as Lehman Brothers and Washington Mutual.[23]

Below is a list of the auctions that have been held since 2005.[24]

Date Name Final price as a percentage of par
2005-06-14 Collins & Aikman - Senior 43.625
2005-06-23 Collins & Aikman - Subordinated 6.375
2005-10-11 Northwest Airlines 28
2005-10-11 Delta Airlines 18
2005-11-04 Delphi Corporation 63.375
2006-01-17 Calpine Corporation 19.125
2006-03-31 Dana Corporation 75
2006-11-28 Dura - Senior 24.125
2006-11-28 Dura - Subordinated 3.5
2007-10-23 Movie Gallery 91.5
2008-02-19 Quebecor 41.25
2008-10-02 Tembec Inc 83
2008-10-06 Fannie Mae - Senior 91.51
2008-10-06 Fannie Mae - Subordinated 99.9
2008-10-06 Freddie Mac - Senior 94
2008-10-06 Freddie Mac - Subordinated 98
2008-10-10 Lehman Brothers 8.625
2008-10-23 Washington Mutual 57
2008-11-04 Landsbanki - Senior 1.25
2008-11-04 Landsbanki - Subordinated 0.125
2008-11-05 Glitnir - Senior 3
2008-11-05 Glitnir - Subordinated 0.125
2008-11-06 Kaupthing - Senior 6.625
2008-11-06 Kaupthing - Subordinated 2.375

Pricing and valuation

There are two competing theories usually advanced for the pricing of credit default swaps. The first, which for convenience we will refer to as the 'probability model', takes the present value of a series of cashflows weighted by their probability of non-default. This method suggests that credit default swaps should trade at a considerably lower spread than corporate bonds.

The second model, proposed by Darrell Duffie, but also by Hull and White, uses a no-arbitrage approach.

Probability model

Under the probability model, a credit default swap is priced using a model that takes four inputs:

If default events never occurred the price of a CDS would simply be the sum of the discounted premium payments. So CDS pricing models have to take into account the possibility of a default occurring some time between the effective date and maturity date of the CDS contract. For the purpose of explanation we can imagine the case of a one year CDS with effective date t_0 with four quarterly premium payments occurring at times t_1, t_2, t_3, and t_4. If the nominal for the CDS is N and the issue premium is c then the size of the quarterly premium payments is Nc/4. If we assume for simplicity that defaults can only occur on one of the payment dates then there are five ways the contract could end: either it does not have any default at all, so the four premium payments are made and the contract survives until the maturity date, or a default occurs on the first, second, third or fourth payment date. To price the CDS we now need to assign probabilities to the five possible outcomes, then calculate the present value of the payoff for each outcome. The present value of the CDS is then simply the present value of the five payoffs multiplied by their probability of occurring.

This is illustrated in the following tree diagram where at each payment date either the contract has a default event, in which case it ends with a payment of N(1-R) shown in red, where R is the recovery rate, or it survives without a default being triggered, in which case a premium payment of Nc/4 is made, shown in blue. At either side of the diagram are the cashflows up to that point in time with premium payments in blue and default payments in red. If the contract is terminated the square is shown with solid shading.

Cashflows for a Credit Default Swap.

The probability of surviving over the interval t_{i-1} to t_i without a default payment is p_i and the probability of a default being triggered is 1-p_i. The calculation of present value, given discount factors of \delta_1 to \delta_4 is then

Description Premium Payment PV Default Payment PV Probability
Default at time t_1 0\, N(1-R) \delta_1\, 1-p_1\,
Default at time t_2 -\frac{Nc}{4} \delta_1 N(1-R) \delta_2\, p_1(1-p_2)\,
Default at time t_3 -\frac{Nc}{4}(\delta_1 + \delta_2) N(1-R) \delta_3\, p_1 p_2 (1-p_3)\,
Default at time t_4 -\frac{Nc}{4}(\delta_1 + \delta_2 + \delta_3) N(1-R) \delta_4\, p_1 p_2 p_3 (1-p_4)\,
No defaults -\frac{Nc}{4} ( \delta_1 + \delta_2 + \delta_3 + \delta_4 ) 0\, p_1 \times p_2 \times p_3 \times p_4

The probabilities p_1, p_2, p_3, p_4 can be calculated using the credit spread curve. The probability of no default occurring over a time period from t to t+\Delta t decays exponentially with a time-constant determined by the credit spread, or mathematically p=exp(-s(t) \Delta t) where s(t) is the credit spread zero curve at time t. The riskier the reference entity the greater the spread and the more rapidly the survival probability decays with time.

To get the total present value of the credit default swap we multiply the probability of each outcome by its present value to give

PV\, =\, (1 - p_1) N(1-R) \delta_1\,
+ p_1 ( 1 - p_2 ) [ N(1-R) \delta_2 - \frac{Nc}{4} \delta_1 ]
+p_1 p_2 ( 1 - p_3 ) [ N(1-R) \delta_3 - \frac{Nc}{4} (\delta_1 + \delta_2) ]
+p_1 p_2 p_3 (1 - p_4) [ N(1-R) \delta_4 - \frac{Nc}{4} (\delta_1 + \delta_2 + \delta_3) ]
-p_1 p_2 p_3 p_4 ( \delta_1 + \delta_2 + \delta_3 + \delta_4 ) \frac{Nc}{4}

No-arbitrage model

In the 'no-arbitrage' model proposed by both Duffie, and Hull and White, it is assumed that there is no risk free arbitrage. Duffie uses the LIBOR as the risk free rate, whereas Hull and White use US Treasuries as the risk free rate. Both analyses make simplifying assumptions (such as the assumption that there is zero cost of unwinding the fixed leg of the swap on default), which may invalidate the no-arbitrage assumption. However the Duffie approach is frequently used by the market to determine theoretical prices. Under the Duffie construct, the price of a credit default swap can also be derived by calculating the asset swap spread of a bond. If a bond has a spread of 100, and the swap spread is 70 basis points, then a CDS contract should trade at 30. However there are sometimes technical reasons why this will not be the case, and this may or may not present an arbitrage opportunity for the canny investor. The difference between the theoretical model and the actual price of a credit default swap is known as the basis.

Criticisms

Critics of the huge credit default swap market have claimed that it has been allowed to become too large without proper regulation and that, because all contracts are privately negotiated, the market has no transparency. Furthermore, there have even been claims that CDSs exacerbated the 2008 global financial crisis by hastening the demise of companies such as Lehman Brothers and AIG.[25]

In the case of Lehman Brothers, it is claimed that the widening of the bank's CDS spread reduced confidence in the bank and ultimately gave it further problems that it was not able to overcome. However, proponents of the CDS market argue that this confuses cause and effect; CDS spreads simply reflected the reality that the company was in serious trouble. Furthermore, they claim that the CDS market allowed investors who had counterparty risk with Lehman Brothers to reduce their exposure in the case of their default.

It was also reported after Lehman's bankruptcy that the $400 billion notional of CDS protection which had been written on the bank could lead to a net payout of $366 billion from protection sellers to buyers (given the cash-settlement auction settled at a final price of 8.625%) and that these large payouts could lead to further bankruptcies of firms without enough cash to settle their contracts.[26] However, industry estimates after the auction suggested that net cashflows would only be in the region of $7 billion.[27] This is because many parties held offsetting positions; for example if a bank writes CDS protection on a company it is likely to then enter an offsetting transaction by buying protection on the same company in order to hedge its risk. Furthermore, CDS deals are marked-to-market frequently. This would have led to margin calls from buyers to sellers as Lehman's CDS spread widened, meaning that the net cashflows on the days after the auction are likely to have been even lower.[28] Senior Bankers have argued that CDS contracts have been acting to distribute risk just as was intended, and that its not CDSs themselves that need further regulation, but the folk who trade them. [29]

Some general criticism of financial derivatives is also relevant to credit derivatives. Warren Buffett famously described derivatives bought speculatively as "financial weapons of mass destruction." In Berkshire Hathaway's annual report to shareholders in 2002, he said, "Unless derivatives contracts are collateralized or guaranteed, their ultimate value also depends on the creditworthiness of the counterparties to them. In the meantime, though, before a contract is settled, the counterparties record profits and losses—often huge in amount—in their current earnings statements without so much as a penny changing hands. The range of derivatives contracts is limited only by the imagination of man (or sometimes, so it seems, madmen)."[30] It is true the entering a CDS transaction gives you counterparty risk, but bear in mind that it is also possible to hedge this risk by buying CDS protection on your counterparty! Furthermore, it is not strictly true to say that profit and loss is recorded without any money changing hands since positions are marked-to-market daily and collateral will pass from buyer to seller (or vice versa) to protect both parties against counterparty default. It is also worth noting that Buffett seems to have since changed his stance on derivatives since he made this statement, since in October 2008 Berkshire Hathaway was forced to reveal to regulators that it has entered into at least $4.85 billion in derivative transactions.[31]

Systemic risk

The risk of counterparties defaulting has been amplified during the 2008 financial crisis, particularly because Lehman Brothers and AIG were counterparties in a very large number of CDS transactions. This is an example of systemic risk, risk which threatens an entire market, and a number of commentators have argued that size and deregulation of the CDS market have increased this risk. As an example, imagine a mutual fund bought some Washington Mutual corporate bonds in 2005 and decided to hedge their exposure by buying CDS protection, from Lehman Brothers.

After Lehman's default, this protection was no longer active, and Washington Mutual's sudden default only days later would have led to a massive loss on the bonds; a loss that should have been nullified by the CDS. It was also a worry that after the defaults of Lehman Brothers and AIG, their inability to pay out on CDS contracts could lead to the complex interlinked chain of CDS transactions between financial institutions to completely unravel.[32] So far this does not seem to have happened, although some commentators have noted that because the total CDS exposure of a bank is not public knowledge, the worry that one could face large losses or possibly even default themselves was a contributing factor to the massive decrease in lending liquidity during September/October 2008.[33]

Chains of CDS transactions can arise from a practice known as "netting".[34] Here, company B may buy a CDS from company A with a certain annual "premium", say 2%. If the condition of the reference company worsens, the risk premium will rise, so company B can sell a CDS to company C with a premium of say, 5%, and pocket the 3% difference. However, if the reference company defaults, company B might not have the assets on hand to make good on the contract. It depends on its contract with company A to provide a large payout, which it then passes along to company C. The problem lies if one of the companies in the chain fails, creating a "domino effect" of losses. For example, if company A fails, company B will default on its CDS contract to company C, possibly resulting in bankruptcy, and company C will potentially experience a large loss due to the failure to receive compensation for the bad debt it held from the reference company. Even worse, because CDS contracts are private, company C will not know that its fate is tied to company A; it is only doing business with company B.

As described above, the establishment of a central exchange or clearing house for CDS trades would help to solve the "domino effect" problem, since it would mean that all trades faced a central counterparty guaranteed by a consortium of dealers.

Tax treatment

The U.S federal income tax treatment of credit default swaps is uncertain.[35] Commentators generally believe that, depending on how they are drafted, they are either notional principal contracts or options for tax purposes,[36] but this is not certain. There is a risk of having credit default swaps recharacterized as different types of financial instruments because they resemble put options and credit guarantees. In particular, the degree of risk depends on the type of settlement (physical/cash and binary/FMV) and trigger (default only/any credit event).[37] If a credit default swap is a notional principal contract, periodic and nonperiodic payments on the swap are deductible and included in ordinary income.[38] If a payment is a termination payment, its tax treatment is even more uncertain.[39] In 2004, the Internal Revenue Service announced that it was studying the characterization of credit default swaps in response to taxpayer confusion,[40] but it has not yet issued any guidance on their characterization. A taxpayer must include income from credit default swaps in ordinary income if the swaps are connected with trade or business in the United States.[41]

LCDS

A new type of default swap is the "loan only" credit default swap (LCDS). This is conceptually very similar to a standard CDS, but unlike "vanilla" CDS, the underlying protection is sold on syndicated secured loans of the Reference Entity rather than the broader category of "Bond or Loan". Also, as of May 22, 2007, for the most widely traded LCDS form, which governs North American single name and index trades, the default settlement method for LCDS shifted to auction settlement rather than physical settlement. The auction method is essentially the same that has been used in the various ISDA cash settlement auction protocols, but does not require parties to take any additional steps following a credit event (i.e., adherence to a protocol) to elect cash settlement. On October 23, 2007, the first ever LCDS auction was held for Movie Gallery.[4]

Because LCDS trades are linked to secured obligations with much higher recovery values than the unsecured bond obligations that are typically assumed to be cheapest to deliver in respect of vanilla CDS, LCDS spreads are generally much tighter than CDS trades on the same name.

See also

References

  1. CFA Institute. (2008). Derivatives and Alternative Investments. pg G-11. Boston: Pearson Custom Publishing. ISBN 0-536-34228-8.
  2. Mark Garbowski (2008-10-24). "United States: Credit Default Swaps: A Brief Insurance Primer". Retrieved on 2008-11-03. "like insurance insofar as the buyer collects when an underlying security defaults ... unlike insurance, however, in that the buyer need not have an "insurable interest" in the underlying security"
  3. Gretchen Morgenson (2008-08-10). "Credit default swap market under scrutiny". Retrieved on 2008-11-03. "If a default occurs, the party providing the credit protection - the seller - must make the buyer whole on the amount of insurance bought."
  4. Karel Frielink (2008-08-10). "Are credit default swaps insurance products?". Retrieved on 2008-11-03. "If the fund manager acts as the protection seller under a CDS, there is some risk of breach of insurance regulations for the manager. ... There is no Netherlands Antilles case law or literature available which makes clear whether a CDS constitutes the ‘conducting of insurance business’ under Netherlands Antilles law. However, if certain requirements are met, credit derivatives will not qualify as an agreement of (non-life) insurance because such an arrangement would in those circumstances not contain all the elements necessary to qualify it as such."
  5. [1]
  6. http://cisdm.som.umass.edu/research/pdffiles/Capital%20Structure%20Manolis%20Chatiras.pdf
  7. Teather, David (2008-09-20). "The woman who built financial 'weapon of mass destruction'". Retrieved on 2008-11-06.
  8. Engdahl, William (2008-06-06). "CREDIT DEFAULT SWAPS THE NEXT CRISIS". Retrieved on 2008-11-02.
  9. Lewis, Nathan (2007-12-07). "Meanwhile in the Derivatives Market". Retrieved on 2008-11-02.
  10. "British Bankers Association Credit Derivatives Report".
  11. Bank for International Settlements
  12. Morgensen, Gretchen (2008-02-17). "Arcane Market Is Next to Face Big Credit Test", The New York Times. Retrieved on 2008-02-17. 
  13. "ISDA Market Survey".
  14. http://www.efalken.com/banking/html's/defaultcurves.htm
  15. http://www.sec.gov/news/testimony/2008/ts092308cc.htm
  16. http://www.guardian.co.uk/business/2008/nov/05/creditcrunch-marketturmoil
  17. http://www.bloomberg.com/apps/news?pid=20601085&sid=aZYSaaTg9xJg&refer=europe
  18. http://www.ft.com/cms/s/0/1bf9100c-a559-11dd-b4f5-000077b07658.html
  19. 2003 Credit Derivatives Definitions
  20. http://www.financewise.com/public/edit/riskm/credit/march01/story2.htm, Financewise.com
  21. http://seekingalpha.com/article/99286-settlement-auction-for-lehman-cds-surprises-ahead
  22. http://www.ft.com/cms/s/0/7a268486-93cd-11dd-9a63-0000779fd18c,dwp_uuid=11f94e6e-7e94-11dd-b1af-000077b07658.html
  23. http://www.isda.org/press/press102108.html
  24. Creditex and Markit. Tradeable Credit Fixings. Retrieved 2008-10-28
  25. http://www.newsweek.com/id/161199
  26. http://www.ft.com/cms/s/0/d96751f8-96f4-11dd-8cc4-000077b07658.html
  27. http://www.ft.com/cms/s/0/d96751f8-96f4-11dd-8cc4-000077b07658.html
  28. http://www.isda.org/press/press102108.html
  29. "Daily Brief" (2008-10-28). Retrieved on 2008-11-06.
  30. Warren Buffett (2003-02-21). "Berkshire Hathaway Inc. Annual Report 2002". Berkshire Hathaway. Retrieved on 2008-09-21.
  31. http://www.bloomberg.com/apps/news?pid=newsarchive&sid=aQwp2qwvFuE8
  32. http://kciinvesting.com/articles/9432/1/AIG-the-Global-Financial-System-and-Investor-Anxiety/Page1.html
  33. http://www.thisismoney.co.uk/investing-and-markets/article.html?in_article_id=455675&in_page_id=3
  34. Unregulated Credit Default Swaps Led to Weakness. All things Considered, National Public Radio. 31 Oct 2008.
  35. Nirenberg, David Z. & Steven L. Kopp. “Credit Derivatives: Tax Treatment of Total Return Swaps, Default Swaps, and Credit-Linked Notes,” Journal of Taxation, Aug. 1997: 1. Peaslee, James M. & David Z. Nirenberg. Federal Income Taxation of Securitization Transactions: Cumulative Supplement No. 7, November 26, 2007, http://www.securitizationtax.com: 85. Retrieved July 28, 2008. Ari J. Brandes. A Better Way to Understand Credit Default Swaps. Tax Notes (July 21, 2008). Earlier version of paper available at: [2].
  36. Peaslee & Nirenberg, 129.
  37. Nirenberg & Kopp, 8.
  38. Id.
  39. Id.
  40. Peaslee & Nirenberg, 89.
  41. Department of the Treasury, Internal Revenue Service, at the IRS website. “2007 Instructions for Form 1042-S: Foreign Person’s U.S. Source Income Subject to Withholding,” http://www.irs.gov/pub/irs-pdf/i1042s_07.pdf: 4. Retrieved July 28, 2008.

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