EPSN Strangle Strategy
EPSN (Epsilon Energy Ltd.), in the Energy sector, (Oil & Gas Exploration & Production industry), listed on NASDAQ.
Epsilon Energy Ltd., a natural gas and oil company, engages in the acquisition, development, gathering, and production of oil and gas reserves in the United States. It operates through Upstream and Gathering System segments. The Company has natural gas production in the Marcellus in Pennsylvania; and oil, natural gas liquids (NGL), and natural gas production in the Anadarko Basin in Oklahoma. As of December 31, 2021, it had total estimated net proved reserves of 110,969 million cubic feet of natural gas reserves, 819,726 barrels of NGL, and 305,052 barrels of oil and other liquids. Epsilon Energy Ltd. was incorporated in 2005 and is based in Houston, Texas.
EPSN (Epsilon Energy Ltd.) trades in the Energy sector, specifically Oil & Gas Exploration & Production, with a market capitalization of approximately $141.6M, a beta of -0.13 versus the broader market, a 52-week range of 4.2-8.5, average daily share volume of 239K, a public-listing history dating back to 2007, approximately 10 full-time employees. These structural characteristics shape how EPSN stock options price implied volatility around earnings windows, capital events, and macro-driven sector rotations.
A beta of -0.13 indicates EPSN has historically moved less than the broader market, dampening realized volatility and producing tighter expected-move bands per unit of dollar exposure. EPSN pays a dividend, which adjusts put-call parity and shifts the ex-dividend pricing across the listed chain.
What is a strangle on EPSN?
A long strangle buys an OTM call and an OTM put at offset strikes, cheaper than a straddle but requiring a larger underlying move to profit since both wings start out-of-the-money.
Current EPSN snapshot
As of May 15, 2026, spot at $6.17, ATM IV 60.70%, IV rank 18.63%, expected move 17.40%. The strangle on EPSN below is built from the same end-of-day chain, with strikes snapped to listed contracts and premiums pulled from the bid/ask midpoint at a 34-day expiry.
Why this strangle structure on EPSN specifically: EPSN IV at 60.70% is on the cheap side of its 1-year range, which favors premium-buying structures like a EPSN strangle, with a market-implied 1-standard-deviation move of approximately 17.40% (roughly $1.07 on the underlying). The 34-day window matched to the front-month expiry keeps theta exposure bounded while still capturing the post-snapshot move; longer-dated EPSN expiries trade a higher absolute premium for lower per-day decay. Position sizing on EPSN should anchor to the underlying notional of $6.17 per share and to the trader's directional view on EPSN stock.
EPSN strangle setup
The EPSN strangle below is built from the end-of-day chain, with each option leg priced at the bid/ask midpoint of its listed strike. With EPSN near $6.17, the first option leg uses a $6.48 strike; additional legs (when the strategy has them) anchor to spot-relative offsets. Premiums come from the bid/ask midpoint on the listed EPSN chain at a 34-day expiry; the cross-strike IV skew is reflected directly in the per-leg values rather than approximated. Quantity sizing assumes one contract per option leg (or 100 EPSN shares for the stock leg in covered calls and collars).
| Action | Type | Strike / Basis | Premium (est) |
|---|---|---|---|
| Buy 1 | Call | $6.48 | N/A |
| Buy 1 | Put | $5.86 | N/A |
EPSN strangle risk and reward
- Net Premium / Debit
- N/A
- Max Profit (per contract)
- Unbounded
- Max Loss (per contract)
- Unbounded
- Breakeven(s)
- None on modeled curve
- Risk / Reward Ratio
- N/A
Upside max profit is unbounded; downside max profit is bounded at the put strike minus the combined debit (reached at zero). Max loss equals the combined debit times 100 (reached anywhere between the two OTM strikes). Two breakevens at call-strike plus debit and put-strike minus debit.
EPSN strangle payoff curve
Modeled P&L at expiration across a range of underlying prices for the strangle on EPSN. Each row is one sampled price point from the computed payoff curve; the full curve uses 200 price points internally before being summarized into 10 rows here.
When traders use strangle on EPSN
Strangles on EPSN are the cheaper cousin of the straddle - traders use them when they want a large directional move but are willing to give up the inner-strike sensitivity in exchange for a lower up-front debit on the EPSN chain.
EPSN thesis for this strangle
The market-implied 1-standard-deviation range for EPSN extends from approximately $5.10 on the downside to $7.24 on the upside. A EPSN long strangle is the OTM cousin of the straddle: lower up-front cost but the underlying has to travel further past either OTM strike before the position turns profitable at expiration. Current EPSN IV rank near 18.63% sits in the lower third of its 1-year distribution, where IV often re-expands toward the mean; this favors premium-buying structures and disadvantages premium-selling structures on EPSN at 60.70%. As a Energy name, EPSN options can move on sector-level news flow (peer earnings, regulatory updates, industry-specific macro data) in addition to EPSN-specific events.
EPSN strangle positions are structurally neutral / high-volatility (long premium, OTM); the modeled P&L assumes European-style exercise at expiration and ignores early assignment, transaction costs, dividends paid before expiry on the stock leg (when present), and the bid-ask spread on the listed chain. EPSN positions also carry Energy sector concentration risk; news flow inside the sector (peer earnings, regulatory shifts, supply-chain headlines) can move EPSN alongside the broader basket even when EPSN-specific fundamentals are unchanged. Always rebuild the position from current EPSN chain quotes before placing a trade.
Frequently asked questions
- What is a strangle on EPSN?
- A strangle on EPSN is the strangle strategy applied to EPSN (stock). The strategy is structurally neutral / high-volatility (long premium, OTM): A long strangle buys an OTM call and an OTM put at offset strikes, cheaper than a straddle but requiring a larger underlying move to profit since both wings start out-of-the-money. With EPSN stock trading near $6.17, the strikes shown on this page are snapped to the nearest listed EPSN chain strike and the premiums come straight from the end-of-day bid/ask midpoint.
- How are EPSN strangle max profit and max loss calculated?
- Upside max profit is unbounded; downside max profit is bounded at the put strike minus the combined debit (reached at zero). Max loss equals the combined debit times 100 (reached anywhere between the two OTM strikes). Two breakevens at call-strike plus debit and put-strike minus debit. For the EPSN strangle priced from the end-of-day chain at a 30-day expiry (ATM IV 60.70%), the computed maximum profit is unbounded per contract and the computed maximum loss is unbounded per contract. Live intraday quotes will differ as the chain moves through the trading session.
- What is the breakeven for a EPSN strangle?
- The breakeven for the EPSN strangle priced on this page is no defined breakeven on the modeled curve at expiration, derived from end-of-day chain premiums. Breakeven is the underlying price at which the strategy's P&L crosses zero ignoring transaction costs and assignment risk. The current EPSN market-implied 1-standard-deviation expected move is approximately 17.40%; if the move sits well outside the breakeven distance, the structure's risk-reward becomes correspondingly tighter.
- When should you consider a strangle on EPSN?
- Strangles on EPSN are the cheaper cousin of the straddle - traders use them when they want a large directional move but are willing to give up the inner-strike sensitivity in exchange for a lower up-front debit on the EPSN chain.
- How does current EPSN implied volatility affect this strangle?
- EPSN ATM IV is at 60.70% with IV rank near 18.63%, which is on the low end of its 1-year range. Premium-buying structures (long call, long put, debit spreads) are relatively cheap in this regime; premium-selling structures collect less credit per unit risk.